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    • 1. 发明申请
    • AN ELECTRONIC DEVICE AND A BASEBAND PROCESSOR
    • WO2023048612A1
    • 2023-03-30
    • PCT/SE2022/050807
    • 2022-09-13
    • BEAMMWAVE AB
    • LINDOFF, Bengt
    • H01Q1/24H01Q21/24H01Q23/00H04B1/3827H04B1/401H04B7/0404H04W52/24
    • An electronic device (100) comprising: a first antenna (102) and a second antenna (104); first radio frequency, RF, circuitry (112) and second RF circuitry (114), the first RF circuitry (112) being connected to the first antenna (102) and the second RF circuitry (114) being connected to the second antenna (104) and each of the first and the second RF circuitry (112, 114) comprising one or more of a Low Noise amplifier, a Mixer, a Local oscillator, a Phase locked loop, an analog filter, a Voltage Gain Amplifier, an analog to digital converter, ADC, a digital filter, a Power Amplifier and a digital to analog converter, DAC; and a baseband processor (120), connected or connectable via a zero-intermediate frequency, zero-IF, signal to the first and the second RF circuitries; and wherein the first antenna (102) is integrated together with the first RF circuitry (112) in a first encapsulation (132), the second antenna (104) is integrated together with the second RF circuitry (114) in a second encapsulation (134), the second encapsulation (134) preferably being different from the first encapsulation (132), and wherein the first and second antennas (102, 104) have different orientations. A corresponding baseband processor is also disclosed.
    • 2. 发明申请
    • A PROCESSOR FOR PERFORMING RADAR AND COMMUNICATION OPERATIONS, AN ELECTRONIC DEVICE, A METHOD, A COMPUTER PROGRAM PRODUCT, AND A PRIORITIZATION CONTROL UNIT
    • WO2023075658A1
    • 2023-05-04
    • PCT/SE2022/050913
    • 2022-10-10
    • BEAMMWAVE AB
    • LINDOFF, Bengt
    • G01S7/00G01S7/02H04W72/12
    • A processor (100) for performing radar and communication operations, connectable to a radio transceiver (110) capable of transmitting radar and communication radio signals over at least a first and a second frequency range, the processor (100) comprising: a signal generator (120) configured to generate communication signals and radar signals; a communication control unit (130) configured to control a first time period and the first frequency range for transmitting communication signals generated by the signal generator (120); a radar control unit (140) configured to control a second time period and the second frequency range for transmitting radar signals generated by the signal generator (120); and a prioritization control unit (150) configured to receive the first time period and the first frequency range from the communication control unit (130), configured to receive the second time period and the second frequency range from the radar control unit (140), configured to determine if the first and second time periods at least partially overlap, configured to determine if the first and second frequency ranges at least partially overlap and configured to prioritize transmission of communication signals or transmission of radar signals based on a prioritization rule if the first and second time periods at least partially overlap and the first and second frequency ranges at least partially overlap. Corresponding electronic device, method, computer program product and prioritization control unit are also disclosed.
    • 5. 发明申请
    • TRANSCEIVER ELEMENT FOR BEAMFORMING
    • WO2020052880A1
    • 2020-03-19
    • PCT/EP2019/071568
    • 2019-08-12
    • BEAMMWAVE AB
    • TÖRMÄNEN, MarkusLINDOFF, Bengt
    • H04B1/00H04B7/06H04B7/08
    • This disclosure relates to a transceiver element comprising receiving circuitry, down-converting circuitry, extracting circuitry and output circuitry. The receiving circuitry is configured to receive a radio frequency signal via an antenna element associated with the receiving circuitry. The radio frequency signal comprises a first received signal part and a second received signal part. The down-converting circuitry is configured to down-convert the radio frequency signal to provide a down-converted signal. The down-converted signal comprises a first down-converted signal part corresponding to the first received signal part and a second down-converted signal part corresponding to the second received signal part. The extracting circuitry is configured to extract at least the second down-converted signal part from the down-converted signal. The output circuitry is configured to provide an output signal comprising a first output signal part and a second output signal part. The first output signal part comprises at least a first intermediate signal part which comprises at least the first down-converted signal part. The second output signal part comprises at least the second down-converted signal part extracted from the down-converted signal. Corresponding transceiver, wireless communication apparatus, method and computer program product are also disclosed.
    • 8. 发明申请
    • MULTI-ANTENNA TRANSCEIVER SYSTEM FOR MULTI-BAND OPERATION
    • WO2022074096A1
    • 2022-04-14
    • PCT/EP2021/077645
    • 2021-10-07
    • BEAMMWAVE AB
    • LINDOFF, BengtBRANDT, Per-OlofLINDSTRAND, Jonas
    • H04B1/403
    • A multi-antenna transceiver system is disclosed. The system comprises a group of transceiver chips, wherein each transceiver chip has a respective chip-associated (e.g., on-chip) frequency generator configured to provide a respective conversion frequency, and wherein each transceiver chip is configured to use the respective conversion frequency for on-chip frequency conversion of a transceiver signal. The system also comprises a controller adapted to cause configuration of the respective chip- associated frequency generator of at least one of the transceiver chips, wherein the configuration comprises dynamically setting the respective conversion frequency. Typically, the respective conversion frequencies are different for at least two of the transceiver chips. For example, the respective conversion frequencies may be two different frequencies for carrier aggregation and/or dual connectivity. In some embodiments, the controller comprises at least one respective piece of circuitry comprised on at least one of the transceiver chips. The respective piece of circuitry is adapted to cause configuration of the respective chip-associated frequency generator of at least the transceiver chip on which it is comprised. In some embodiments, the controller comprises a single piece of circuitry separate from the transceiver chips. The single piece of circuitry is adapted to cause configuration of the respective chip-associated frequency generator of two or more of the transceiver chips. Corresponding controller, transceiver chip, network node, wireless communication device, method and computer program product are also disclosed.