Transmitter architectures for communications systems
    1.
    发明专利
    Transmitter architectures for communications systems 有权
    用于通信系统的发射机结构

    公开(公告)号:JP2012016025A

    公开(公告)日:2012-01-19

    申请号:JP2011168760

    申请日:2011-08-01

    CPC classification number: H03G3/3042 H03F2203/7239 H03G1/0088

    Abstract: PROBLEM TO BE SOLVED: To provide a transmitter architecture for a communications system of high performance, which consumes less electric power and which requires low cost.SOLUTION: There is provided a method for adjusting signal gain in a transmitter having a first gain element and a second gain element, in which the first gain element responds to an asynchronous first update clock and the second gain element responds to an asynchronous second update clock. The method comprises: receiving determinations for first and second gain transmission characteristics and a first gain setting value for the first gain element and a second gain setting value for the second gain element; adjusting the second gain setting value with a particular gain offset value based on the first gain setting value; determining a linearized gain setting value corresponding to the adjusted second gain setting value; adjusting a gain of the first gain element with the first gain setting value; and adjusting a gain of the second gain setting value with the linearized gain setting value.

    Abstract translation: 要解决的问题:提供一种高性能通信系统的发射机架构,其消耗较少的电力并且需要低成本。 解决方案:提供了一种用于调整具有第一增益元件和第二增益元件的发射器中的信号增益的方法,其中第一增益元件响应异步第一更新时钟,第二增益元件响应异步 第二更新时钟。 该方法包括:接收第一增益传输特性的确定和第一增益元件的第一增益设置值和第二增益元件的第二增益设置值; 基于所述第一增益设定值,以特定增益偏移值调整所述第二增益设定值; 确定与所述调整后的第二增益设定值对应的线性化增益设定值; 用第一增益设定值调节第一增益元件的增益; 以及利用所述线性化增益设定值来调整所述第二增益设定值的增益。 版权所有(C)2012,JPO&INPIT

    Transmitter architectures for communications systems
    2.
    发明专利
    Transmitter architectures for communications systems 有权
    用于通信系统的发射机结构

    公开(公告)号:JP2012016026A

    公开(公告)日:2012-01-19

    申请号:JP2011168761

    申请日:2011-08-01

    CPC classification number: H03G3/3042 H03F2203/7239 H03G1/0088

    Abstract: PROBLEM TO BE SOLVED: To provide a method for controlling a transient current at an output power of a transmitter performing signal transmission.SOLUTION: The transmitter includes a first element having a first time response and a second element having a second time response, in which the first time response is faster than the second time response. The method comprises: receiving a first command to adjust a gain of the first element; receiving a second command to adjust a gain of the second element; delaying the first command by a particular time period; adjusting the gain of the second gain element in accordance with the second command; and adjusting the gain of the first gain element in accordance with the delayed first command.

    Abstract translation: 要解决的问题:提供一种用于控制在执行信号传输的发射机的输出功率下的瞬态电流的方法。 解决方案:发射机包括具有第一时间响应的第一元件和具有第二时间响应的第二元件,其中第一时间响应比第二时间响应快。 该方法包括:接收第一命令以调整第一元素的增益; 接收第二命令以调整所述第二元件的增益; 在特定时间段内延迟第一个命令; 根据第二指令调整第二增益元件的增益; 以及根据延迟的第一命令调整第一增益元件的增益。 版权所有(C)2012,JPO&INPIT

    Architecture of transmitter for communication system
    4.
    发明专利
    Architecture of transmitter for communication system 有权
    发射机通信系统架构

    公开(公告)号:JP2012010366A

    公开(公告)日:2012-01-12

    申请号:JP2011168763

    申请日:2011-08-01

    CPC classification number: H03G3/3042 H03F2203/7239 H03G1/0088

    Abstract: PROBLEM TO BE SOLVED: To provide a controller circuit for accelerating response time, improving linearity in adjustment of output power, reducing interference, reducing power consumption, lowering circuit complexity and lowering costs by controlling the operation of a transmitter of a communication system.SOLUTION: A variable gain element has a variable gain covering a particular gain range. A power amplifier section is connected to the variable gain element and includes many discrete gain settings, and one of the gain settings is a bypass setting. The controller circuit supplies control signals for the variable gain element and the power amplifier section. The gains of the variable gain element and the power amplifier section are updated so as to reduce transients in output transmission power and to perform linear adjustment of an output transmission power level. The variable gain element and the power amplifier section are controlled to reduce the power consumption by turning off the power of the power amplifier section when not needed for instance.

    Abstract translation: 要解决的问题:为了提供控制电路,通过控制通信系统的发射机的操作来提高响应时间,提高调节输出功率的线性度,减少干扰,降低功耗,降低电路复杂度并降低成本 。

    解决方案:可变增益元件具有覆盖特定增益范围的可变增益。 功率放大器部分连接到可变增益元件,并包括许多离散增益设置,其中一个增益设置是旁路设置。 控制器电路为可变增益元件和功率放大器部分提供控制信号。 更新可变增益元件和功率放大器部分的增益,以便减少输出发射功率的瞬变并且执行输出发射功率电平的线性调节。 控制可变增益元件和功率放大器部分,以便在不需要时关闭功率放大器部分的功率来降低功耗。 版权所有(C)2012,JPO&INPIT

    High efficiency switched gain power amplifier
    5.
    发明专利
    High efficiency switched gain power amplifier 审中-公开
    高效开关增益放大器

    公开(公告)号:JP2010183641A

    公开(公告)日:2010-08-19

    申请号:JP2010098898

    申请日:2010-04-22

    Abstract: PROBLEM TO BE SOLVED: To enhance efficiency in using power amplifier.
    SOLUTION: A power amplifier circuit device includes a driver amplifier, a switch, an amplifier path having a band pass filter and a power amplifier, and a bypass path which bypasses the power amplifier when excess gain and output power are not needed. When an RF-analog signal from the driver amplifier is switched to the amplifier path, the signal is band-pass filtered and amplified. Then the signal is split into an in-phase signal and a quadrature signal. Either the in-phase or quadrature signal is inverted and summed with the other in-phase or quadrature signal, and the summed signal is transmitted to an output port. When the RF-signal from the driver amplifier is switched to the bypass path, the power amplifier is turned off and the bypass path directs the signal to the output of the power amplifier, which appears as a high impedance to the signal. The signal is reflected from the power amplifier to the output port.
    COPYRIGHT: (C)2010,JPO&INPIT

    Abstract translation: 要解决的问题:提高使用功率放大器的效率。 解决方案:功率放大器电路器件包括驱动器放大器,开关,具有带通滤波器的放大器路径和功率放大器,以及当不需要过量增益和输出功率时旁路功率放大器的旁路路径。 当来自驱动放大器的RF模拟信号切换到放大器路径时,该信号被带通滤波和放大。 然后将信号分成同相信号和正交信号。 同相或正交信号被反相并与另一个同相或正交信号相加,并且相加的信号被发送到输出端口。 当来自驱动放大器的RF信号被切换到旁路路径时,功率放大器关闭,并且旁路路径将信号引导到功率放大器的输出端,功率放大器的输出显示为信号的高阻抗。 信号从功率放大器反射到输出端口。 版权所有(C)2010,JPO&INPIT

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