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    • 2. 发明授权
    • Flexibility enhancement to the modified fast convolution algorithm
    • 改进的快速卷积算法的灵活性增强
    • US06393451B2
    • 2002-05-21
    • US09818901
    • 2001-03-28
    • Scott LeyonhjelmRichard Hellberg
    • Scott LeyonhjelmRichard Hellberg
    • G06F1714
    • H04L5/06
    • The present invention increases the flexibility of the modified fast convolution algorithm. In a first exemplary embodiment of the present invention, a block compensator is inserted into the channelizer/de-channelizer processing chain for multiplying data in the processing chain with compensation constants. The block compensator corrects the phase continuity problem associated with the modified fast convolution algorithm to thereby allow unrestricted filter placement. In a second exemplary embodiment, the phase continuity problem is corrected by combining a frequency translation in the frequency domain with a compensatory frequency translation in the time domain. Both techniques increase the flexibility of the modified fast convolution algorithm whilst only marginally increasing computational requirements.
    • 本发明增加了改进的快速卷积算法的灵活性。 在本发明的第一示例性实施例中,块补偿器被插入到通道化器/去通道化器处理链中,用于将处理链中的数据与补偿常数相乘。 块补偿器校正与修改的快速卷积算法相关联的相位连续性问题,从而允许无限制的滤波器放置。 在第二示例性实施例中,通过将频域中的频率转换与时域中的补偿频率变换组合来校正相位连续性问题。 这两种技术增加了修改后的快速卷积算法的灵活性,同时仅略微提高了计算量。
    • 3. 发明授权
    • Flexibility enhancement to the modified fast convolution algorithm
    • 改进的快速卷积算法的灵活性增强
    • US06266687B1
    • 2001-07-24
    • US09156630
    • 1998-09-18
    • Scott LeyonhjelmRichard Hellberg
    • Scott LeyonhjelmRichard Hellberg
    • G06F1715
    • H04L5/06
    • The present invention increases the flexibility of the modified fast convolution algorithm. In a first exemplary embodiment of the present invention, a block compensator is inserted into the channelizer/de-channelizer processing chain for multiplying data in the processing chain with compensation constants. The block compensator corrects the phase continuity problem associated with the modified fast convolution algorithm to thereby allow unrestricted filter placement. In a second exemplary embodiment, the phase continuity problem is corrected by combining a frequency translation in the frequency domain with a compensatory frequency translation in the time domain. Both techniques increase the flexibility of the modified fast convolution algorithm whilst only marginally increasing computational requirements.
    • 本发明增加了改进的快速卷积算法的灵活性。 在本发明的第一示例性实施例中,块补偿器被插入到通道化器/去通道化器处理链中,用于将处理链中的数据与补偿常数相乘。 块补偿器校正与修改的快速卷积算法相关联的相位连续性问题,从而允许无限制的滤波器放置。 在第二示例性实施例中,通过将频域中的频率转换与时域中的补偿频率变换组合来校正相位连续性问题。 这两种技术增加了修改后的快速卷积算法的灵活性,同时仅略微提高了计算量。
    • 4. 发明授权
    • Radio frequency power amplifier circuit and method
    • 射频功率放大器电路及方法
    • US08917141B2
    • 2014-12-23
    • US13505777
    • 2012-04-10
    • Richard HellbergTony FondenMats Klingberg
    • Richard HellbergTony FondenMats Klingberg
    • H03F3/68
    • H03F3/211H03F1/0233H03F1/0288H03F3/193H03F2200/102H03F2200/451H03F2203/21106
    • An amplifier circuit is disclosed for providing a radio frequency output signal having a variable signal envelope, comprising a main amplifier device and an auxiliary amplifier and a combiner network for combining an output signal from said first amplifier device and a second output signal from said second amplifier device to provide a combined output signal of variable signal envelope to a load, and a signal processing circuit comprising an input and a non-linear processing section to provide at least said second radio frequency output signal with a signal envelope that has a non-linear dependency from an amplitude characteristic of the input signal such that the degree of non-linearity of the non-linear dependency varies dependent on the amount of change per time unit of the amplitude characteristic of the input signal. Further, a method of power amplifying a radio frequency signal having a variable signal envelope is disclosed.
    • 公开了一种用于提供具有可变信号包络的射频输出信号的放大器电路,包括主放大器装置和辅助放大器以及组合来自所述第一放大器装置的输出信号和来自所述第二放大器的第二输出信号的组合器网络 用于向负载提供可变信号包络的组合输出信号的装置,以及包括输入和非线性处理部分的信号处理电路,用于向至少所述第二射频输出信号提供具有非线性的信号包络 来自输入信号的幅度特性的依赖性,使得非线性依赖性的非线性度随输入信号的幅度特性的时间单位的变化量而变化。 此外,公开了一种功率放大具有可变信号包络的射频信号的方法。
    • 6. 发明授权
    • Multi stage amplifier
    • 多级放大器
    • US08305146B2
    • 2012-11-06
    • US13141636
    • 2008-12-22
    • Richard Hellberg
    • Richard Hellberg
    • H03F3/68
    • H03F1/0294H03F3/602
    • A multi-stage amplifier includes a first, a second, and a third sub-amplifier, each with respective input and output ports. The multi-stage amplifier also includes a common output port. The output port of the second sub-amplifier is connected to the output port of the first sub-amplifier as well as to the common output port of the multi-stage amplifier, and the output port of the third sub-amplifier is connected to the common output port. The electrical lengths of the connections from the second sub-amplifier's output port both to the first amplifier's output port and to the common output port are longer or shorter than one quarter of a wavelength (λ) of the frequency for which the multi-stage amplifier is intended to operate.
    • 多级放大器包括具有各自的输入和输出端口的第一,第二和第三子放大器。 多级放大器还包括一个公共输出端口。 第二子放大器的输出端口连接到第一子放大器的输出端口以及多级放大器的公共输出端口,并且第三子放大器的输出端口连接到 公共输出端口。 从第二子放大器的输出端口到第一放大器的输出端口和公共输出端口的连接的电长度比多级放大器的频率的波长(λ)的四分之一长或短 意图操作。
    • 7. 发明申请
    • Method For Controlling A Linear Amplifier And Power Amplifier Arrangement
    • 用于控制线性放大器和功率放大器布置的方法
    • US20100019843A1
    • 2010-01-28
    • US12374898
    • 2006-07-24
    • Richard HellbergTony Fondén
    • Richard HellbergTony Fondén
    • H03F3/68
    • H03F1/0222H03F1/0288
    • The present invention relates to a method for controlling an amplifier unit having at least one drive signal input connection 1, at least one power supply voltage input connection 2 and an output connection 4. The amplifier unit comprises at least one amplifier, and the method comprises the steps of: feeding each amplifier by a drive signal from said at least one drive signal input connection 1, and feeding each amplifier by a power supply voltage from said at least one power supply voltage input connection, whereby said amplifier unit has defined output characteristics at the output connection 4 and a predetermined power supply voltage at a maximum RF output power for a RF signal. The method further comprises the steps of: operating at least one amplifier with RF output voltage characteristics to obtain a reduced shunt loss, compared to a reference shunt loss, at the output connection 4. The reference shunt loss is obtained when operating each amplifier as a class B amplifier having the defined output characteristics at the output connection 4 and the predetermined power supply voltage at a maximum RF output power for the RF signal, and modulating the power supply voltage to each amplifier to reduce excessive voltage drop over the amplifier.
    • 本发明涉及一种用于控制具有至少一个驱动信号输入连接1,至少一个电源电压输入连接2和输出连接4的放大器单元的方法。放大器单元包括至少一个放大器,该方法包括 以下步骤:通过来自所述至少一个驱动信号输入连接1的驱动信号馈送每个放大器,并且通过来自所述至少一个电源电压输入连接的电源电压馈送每个放大器,由此所述放大器单元具有定义的输出特性 在输出连接4处以及用于RF信号的最大RF输出功率的预定电源电压。 该方法还包括以下步骤:在输出连接4处,与至少一个具有RF输出电压特性的放大器相比,以获得与参考并联损耗相比降低的分流损耗。当将每个放大器作为 B类放大器在输出连接4处具有限定的输出特性,并以RF信号的最大RF输出功率具有预定的电源电压,以及调制每个放大器的电源电压以减小放大器上的过大的电压降。
    • 8. 发明申请
    • Method for Limiting Local Bandwidth Impairment Using Tone Reservation
    • 使用音调预约限制局部带宽损失的方法
    • US20100008442A1
    • 2010-01-14
    • US12442776
    • 2006-11-13
    • Richard Hellberg
    • Richard Hellberg
    • H04B15/00H04B1/00H04B7/02
    • H04L27/2618
    • The present invention relates to a method of limiting local bandwidth impairment in a telecommunications system, wherein tone reservation is used to reduce peak power of a multi-carrier signal using successive processing stages. The present invention also relates to an apparatus for limiting local bandwidth impairment and to a base station including such an apparatus. The method according to the present invention comprises the steps: generating a first peak reduction signal using reserved frequencies or tones of a first subset of frequencies or tones; generating a second peak reduction signal using reserved frequencies or tones of a second subset of frequencies or tones; extracting the In-phase components, I-components, of the first peak reduction signal and extracting the Quadrature components, Q-components, of the second peak reduction signal; and generating a third peak reduction signal by combining or adding, in the frequency domain, the I-components of the first peak reduction signal and the Q-components of the second peak reduction signal.
    • 本发明涉及一种在电信系统中限制局部带宽损害的方法,其中使用音调保留来减少使用连续处理阶段的多载波信号的峰值功率。 本发明还涉及一种用于限制局部带宽损害的装置和一种包括这种装置的基站。 根据本发明的方法包括以下步骤:使用频率或音调的第一子集的保留频率或音调产生第一峰值降低信号; 使用频率或音调的第二子集的保留频率或音调产生第二峰值降低信号; 提取第一峰值降低信号的同相分量I分量,并提取第二峰值降低信号的正交分量Q分量; 以及通过在频域中组合或相加第一峰值降低信号的I分量和第二峰值降低信号的Q分量来产生第三峰值降低信号。
    • 10. 发明申请
    • Non-Linear Processing of Signals
    • 信号的非线性处理
    • US20080150774A1
    • 2008-06-26
    • US11816961
    • 2005-02-25
    • Richard Hellberg
    • Richard Hellberg
    • H03M1/00H03F1/00
    • H03F1/32H03F1/0261H03F1/3276
    • In a non-linear processing system, the main non-linear processing and filtering is performed with low precision in a separate branch. A low-precision version (22) of the input signal (14) is created in an extractor (20), which is processed non-linearly in a low-precision non-linear processing unit (11) under constraints put on the non-linear processing. Quantisation errors or other artefacts, created by the use of low precision signals are finally removed by a precision restoring processing in a precision restoring unit (26) using the full-precision signal (14).
    • 在非线性处理系统中,在单独的分支中以低精度执行主非线性处理和滤波。 在提取器(20)中创建输入信号(14)的低精度版本(22),该抽取器在非精确的非线性处理单元(11)中被非线性处理, 线性处理。 通过使用全精度信号(14)的精密恢复单元(26)中的精度恢复处理,最终消除了通过使用低精度信号产生的量化误差或其它伪影。