JP5702660B2 - Predistorter - Google Patents

Description

  The present invention relates to a predistorter that compensates for nonlinear distortion between input and output of a nonlinear circuit.

  By using a predistorter, nonlinear distortion of the nonlinear circuit can be compensated. The configuration of the predistorter disclosed in Patent Document 1 is shown in FIGS. The predistorter 1 shown in FIGS. 1 and 2 includes a distortion compensation unit 11 and a control unit 12.

  The predistorter 1 shown in FIG. 1 will be described. The distortion compensation unit 11 generates a predistortion compensation signal by performing distortion compensation of the input signal of the nonlinear circuit 2 based on a distortion compensation criterion that is a coefficient of a distortion compensation polynomial or a table value of a lookup table. The distortion compensation signal is output to the nonlinear circuit 2. The control unit 12 generates a distortion compensation reference based on the input signal of the distortion compensation unit 11 and the output signal of the nonlinear circuit 2 and outputs the distortion compensation reference to the distortion compensation unit 11.

  The predistorter 1 shown in FIG. 2 will be described. The distortion compensation unit 11 generates a predistortion compensation signal by performing distortion compensation of the input signal of the nonlinear circuit 2 based on a distortion compensation criterion that is a coefficient of a distortion compensation polynomial or a table value of a lookup table. The distortion compensation signal is output to the nonlinear circuit 2. The control unit 12 generates a distortion compensation reference based on the predistortion compensation signal and the output signal of the nonlinear circuit 2 and outputs the distortion compensation reference to the distortion compensation unit 11.

JP 2010-103675 A

  The configuration of the control unit disclosed in Patent Document 1 is shown in FIG. The control unit 12 illustrated in FIG. 3 includes a sampling unit 121 and a distortion compensation reference generation unit 122.

  The sampling unit 121 samples the input signal or the predistortion compensation signal of the nonlinear circuit 2 while generating a variable number of samplings, generates an input sampling signal, samples the output signal of the nonlinear circuit 2, and generates an output sampling signal. The distortion compensation reference generation unit 122 generates a distortion compensation reference based on the generated input sampling signal and output sampling signal, and outputs the distortion compensation reference to the distortion compensation unit 11. The predistorter 1 can achieve both high accuracy of distortion compensation and quick follow-up of distortion compensation by changing the number of samplings.

  Here, when a signal amplifier is assumed as the non-linear circuit 2, the non-linear characteristic increases as the instantaneous power of the input signal increases. Therefore, compensation of non-linear distortion is required as the instantaneous power of the input signal increases. However, the probability that the instantaneous power of the input signal is high is low. For example, in a spread spectrum system such as WCDMA or CDMA2000, or an OFDM system such as LTE or WiMAX, the statistical distribution of the power density of the input signal is a distribution close to a chi-square distribution with 2 degrees of freedom.

  Therefore, the predistorter 1 cannot generate an input sampling signal and an output sampling signal with high instantaneous power only by making the sampling number variable. Then, the predistorter 1 needs to generate an input sampling signal and an output sampling signal with high instantaneous power by executing long-time sampling continuously in time. Furthermore, the predistorter 1 needs to execute sampling for a long time continuously in order to perform distortion compensation in consideration of the memory effect of the nonlinear circuit 2. However, the computation time for generating a distortion compensation criterion increases in proportion to the number of samplings or in proportion to the square of the number of samplings.

  Here, the calculation time for generating the distortion compensation reference affects the response speed of the output signal to the power change of the input signal. Therefore, in applications such as base station devices for mobile phones with rapid power changes, it is necessary to reduce calculation time for generating a distortion compensation reference.

  Therefore, in order to solve the above-described problems, an object of the present invention is to generate an input sampling signal and an output sampling signal with high instantaneous power while reducing a calculation time for generating a distortion compensation reference.

  In order to achieve the above object, the signal dump unit generates a plurality of temporally continuous input-side sample sequences and output-side sample sequences, and the high-power sorting unit generates a plurality of generated input-side sample sequences and output-side samples. Among the series, the input side sample series and the output side sample series including a signal with high instantaneous power are selected, and the distortion compensation reference generation unit performs distortion compensation based on the selected input side sample series and output side sample series. It was decided to generate a standard.

  Specifically, the present invention is a predistorter that compensates for nonlinear distortion between the input and output of a nonlinear circuit, and performs distortion compensation for an input signal of the nonlinear circuit based on a distortion compensation criterion. A distortion compensation unit that generates a distortion compensation signal and outputs the predistortion compensation signal to the nonlinear circuit; and an input-side sample that is generated by continuously capturing the input signal of the nonlinear circuit or the predistortion compensation signal in time A signal dump unit for generating a plurality of series and generating a plurality of output side sample series generated by taking in the output signal of the nonlinear circuit continuously in time, and the plurality of generated input side sample series and output side sample series A high power sorting unit that sorts the input-side sample series and the output-side sample series in descending order of the maximum instantaneous power in each sample series, and the sorted input-side sample series and output Based on the sample sequence, and the distortion compensation reference generation unit for generating a reference of the distortion compensation output to the distortion compensation unit, is a pre-distorter, characterized in that it comprises a.

  The present invention is also a predistorter that compensates for non-linear distortion between input and output of a non-linear circuit, and performs pre-distortion compensation by executing distortion compensation for an input signal of the non-linear circuit based on a distortion compensation criterion. A distortion compensation unit that outputs the predistortion compensation signal to the nonlinear circuit, and a plurality of input-side sample sequences that are generated by continuously capturing the input signal of the nonlinear circuit or the predistortion compensation signal in time A signal dump unit that generates and generates a plurality of output side sample sequences generated by capturing the output signal of the nonlinear circuit continuously in time, and among the plurality of generated input side sample sequences and output side sample sequences, A high power selecting section for selecting an input-side sample series and an output-side sample series in which the maximum instantaneous power in each sample series exceeds a threshold of instantaneous power; and the selected input-side sample series and Based on the output side sample sequence, and the distortion compensation reference generation unit for generating a reference of the distortion compensation output to the distortion compensation unit, is a pre-distorter, characterized in that it comprises a.

  According to this configuration, it is possible to generate the input sampling signal and the output sampling signal with high instantaneous power while reducing the calculation time for generating the distortion compensation reference.

  Further, according to the present invention, the high power selection unit normalizes instantaneous power with an average value of instantaneous power for each of the plurality of generated input side sample series and output side sample series, and converts the normalized instantaneous power into the normalized instantaneous power. The predistorter is characterized by selecting an input-side sample series and an output-side sample series based on the data.

  According to this configuration, even when the average value of the instantaneous power in the input-side sample series and the output-side sample series changes from moment to moment for each of the input-side sample series and the output-side sample series, the input-side sample series and the output are appropriately displayed. The side sample series can be selected.

  The present invention can generate an input sampling signal and an output sampling signal with high instantaneous power while reducing a calculation time for generating a distortion compensation reference. And since it captures both a signal with high instantaneous power and a signal with low instantaneous power continuously in time, it can compensate for nonlinear distortion when the instantaneous power of the input signal is high and when the instantaneous power of the input signal is low, Distortion compensation considering the memory effect of the nonlinear circuit can be executed.

It is a figure which shows the structure of a predistorter. It is a figure which shows the structure of a predistorter. It is a figure which shows the structure of the control part of a prior art. It is a figure which shows the structure of the control part of this invention. It is a figure which shows the process of the control part of this invention.

  Embodiments of the present invention will be described with reference to the accompanying drawings. The embodiments described below are examples of the present invention, and the present invention is not limited to the following embodiments.

  The configuration of the predistorter of the present invention is shown in FIGS. The predistorter 1 shown in FIGS. 1 and 2 includes a distortion compensation unit 11 and a control unit 12. The distortion compensation unit 11 is the same in the present invention and the prior art, but the control unit 12 is different in the present invention and the prior art.

  The configuration and processing of the control unit of the present invention are shown in FIGS. 4 and 5, respectively. The control unit 12 illustrated in FIG. 4 includes a signal dump unit 123, a high power selection unit 124, and a distortion compensation reference generation unit 125. The circles shown in FIG. 5 indicate the maximum instantaneous power in each sample series.

  The signal dump unit 123 generates a plurality of input side sample sequences generated by continuously acquiring the input signal or the predistortion compensation signal of the nonlinear circuit 2 in time, and continuously outputs the output signal of the nonlinear circuit 2 in time. A plurality of output side sample sequences generated by taking in are generated. In FIG. 5, the signal dump unit 123 generates each sample series S1, S2, and S3 by continuously acquiring signals of 4096 samples in terms of time.

  As one form, the high power selection unit 124, among the plurality of generated input side sample series and output side sample series, the input side sample series and output side sample series in order of highest maximum instantaneous power in each sample series. Sort out. In FIG. 5, the high power selection unit 124 performs only the sample sequence S2 in the order of the sample sequence S2 having the highest maximum instantaneous power in the sample sequence and the sample sequence S1 having the next highest instantaneous power in the sample sequence. Or both the sample series S2 and the sample series S1.

  As another form, the high power selection unit 124 includes an input side sample sequence and an output among a plurality of generated input side sample sequences and output side sample sequences in which the maximum instantaneous power in each sample sequence exceeds the instantaneous power threshold. Select side sample series. In FIG. 5, the high power sorting unit 124 sorts the sample series based on a threshold of instantaneous power (not shown).

  The distortion compensation reference generation unit 125 generates a distortion compensation reference based on the selected input side sample series and output side sample series, and outputs the distortion compensation reference to the distortion compensation unit 11. The distortion compensation standard is a coefficient of a distortion compensation polynomial or a table value of a lookup table.

  In this way, each selected sample series is shorter than all the generated sample series, but includes a signal having a high instantaneous power equivalent to the generated all sample series. In FIG. 5, when one sample series is selected, the calculation time for generating a distortion compensation reference is proportional to the number of samples compared to the case where all sample series are employed. If it is proportional to the square of the number of samplings, it will decrease to about 1/9. Therefore, it is possible to generate the input sampling signal and the output sampling signal with high instantaneous power while reducing the calculation time for generating the distortion compensation reference.

  And since it captures both a signal with high instantaneous power and a signal with low instantaneous power continuously in time, it can compensate for nonlinear distortion when the instantaneous power of the input signal is high and when the instantaneous power of the input signal is low, Distortion compensation in consideration of the memory effect of the nonlinear circuit 2 can be executed.

  The high power selection unit 124 normalizes the instantaneous power with the average value of the instantaneous power for each of the plurality of generated input side sample series and output side sample series in the above two forms, and based on the normalized instantaneous power Thus, the input-side sample series and the output-side sample series may be selected. Even when the average value of instantaneous power in the input-side sample series and the output-side sample series changes every moment for each of the input-side sample series and the output-side sample series, the input-side sample series and the output-side sample series are appropriately selected. be able to.

  In the present embodiment, in FIG. 5, the signal dump unit 123 generates a sample sequence S2 immediately after the sample sequence S1, and generates a sample sequence S3 immediately after the sample sequence S2. However, as a first modification, the signal dump unit 123 performs sampling of the sample series S2 (S3) at a timing obtained by shifting the sampling timing of the sample series S1 (S2) by a time longer than one sampling period in FIG. It is good also as timing. As a second modification, the signal dump unit 123 performs sampling of the sample series S2 (S3) at a timing obtained by shifting the sampling timing of the sample series S1 (S2) by a time shorter than one sampling period in FIG. It is good also as timing.

  The predistorter according to the present invention generates an input sampling signal and an output sampling signal with high instantaneous power, and generates a distortion compensation reference in applications such as a base station device for a mobile phone having a rapid power change. This is effective for reducing the calculation time.

1: Predistorter 2: Non-linear circuit 11: Distortion compensation unit 12: Control unit 121: Sampling unit 122: Distortion compensation reference generation unit 123: Signal dump unit 124: High power selection unit 125: Distortion compensation reference generation unit S1, S2 , S3: Sample series

Claims (2)

A predistorter that compensates for nonlinear distortion between the input and output of a nonlinear circuit,
A distortion compensation unit that performs distortion compensation of the input signal of the nonlinear circuit to generate a predistortion compensation signal based on a distortion compensation standard, and outputs the predistortion compensation signal to the nonlinear circuit;
A plurality of input side sample sequences generated by continuously acquiring the input signal of the nonlinear circuit or the predistortion compensation signal in time, and an output generated by continuously acquiring the output signal of the nonlinear circuit in time A signal dump unit for generating a plurality of side sample sequences;
In selecting the input-side sample series and the output-side sample series in order of highest maximum instantaneous power in each sample series among the plurality of generated- side input-side sample series and output-side sample series, the plurality of generated input-side sample series For each of the side sample series and the output side sample series, a high power sorting unit that standardizes the instantaneous power with an average value of the instantaneous power and sorts the input side sample series and the output side sample series based on the normalized instantaneous power When,
A distortion compensation reference generation unit that generates the distortion compensation reference based on the selected input-side sample sequence and output-side sample sequence, and outputs the distortion compensation reference to the distortion compensation unit;
A predistorter characterized by comprising: A predistorter that compensates for nonlinear distortion between the input and output of a nonlinear circuit,
A distortion compensation unit that performs distortion compensation of the input signal of the nonlinear circuit to generate a predistortion compensation signal based on a distortion compensation standard, and outputs the predistortion compensation signal to the nonlinear circuit;
A plurality of input side sample sequences generated by continuously acquiring the input signal of the nonlinear circuit or the predistortion compensation signal in time, and an output generated by continuously acquiring the output signal of the nonlinear circuit in time A signal dump unit for generating a plurality of side sample sequences;
Among the plurality of generated input-side sample sequences and output-side sample sequences , the plurality of generations are selected when selecting the input-side sample sequence and the output-side sample sequence whose maximum instantaneous power in each sample sequence exceeds the instantaneous power threshold. For each of the input-side sample series and the output-side sample series, the instantaneous power is normalized with the average value of the instantaneous power, and the input-side sample series and the output-side sample series are selected based on the normalized instantaneous power. A power selector,
A distortion compensation reference generation unit that generates the distortion compensation reference based on the selected input-side sample sequence and output-side sample sequence, and outputs the distortion compensation reference to the distortion compensation unit;
A predistorter characterized by comprising:

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