JP2004128922A - Distortion compensation apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve efficiency of distortion compensation in a distortion compensation apparatus for compensating a distortion generated in an amplifier for amplifying a signal. <P>SOLUTION: A signal level detecting means 1 detects the level of a signal to be amplified by an amplifier 5. Distortion compensation executing means 2-4 execute distortion compensation for the signal to be amplified by the amplifier 5 on the basis of a distortion compensation mode corresponding to a signal level to be detected, on the basis of correlation between a distortion compensation level deciding the distortion compensation mode and a distortion compensation control value. A distortion compensation control value correlation updating means 6 updates the correlation between the distortion compensation control value to be used for execution of the distortion compensation and the signal level, on the basis of the signal amplified by the amplifier 5. An update cycle control means 6 controls a cycle at which the correlation between the distortion compensation control value and the signal level is updated. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a distortion compensation device that compensates for distortion generated in an amplifier that amplifies a signal, and in particular, in a configuration in which distortion compensation is performed based on a correspondence between a signal level and a distortion compensation control value that determines a distortion compensation mode, The present invention relates to a distortion compensation apparatus that controls the cycle at which the association between a distortion compensation control value and a signal level is updated, thereby increasing the efficiency of distortion compensation.
[0002]
[Prior art]
For example, in a base station apparatus provided in a mobile communication system adopting a wideband code division multiple access (W-CDMA) method as a mobile communication method, a base station apparatus provided in a physically distant mobile station apparatus. Since a radio signal needs to reach a place, a signal to be transmitted must be greatly amplified by an amplifier and transmitted and output.
[0003]
However, since the amplifier is an analog device, its input / output characteristics are non-linear functions. In particular, after the amplification limit called the saturation point, even if the power input to the amplifier increases, the output power becomes almost constant, and nonlinear distortion occurs due to such nonlinear output.
[0004]
In a transmission signal before amplification, a signal component outside a desired signal band is suppressed to a low level by a band limiting filter. However, in a signal after passing through an amplifier, non-linear distortion is generated, and thus a signal outside a desired signal band such as an adjacent channel is generated. Signal component leaks out. For example, in the base station apparatus, since the transmission power is high as described above, the magnitude of the leakage power to such an adjacent channel is strictly defined, and the adjacent channel leakage power (ACP: Adjacent Channel leak Power) is reduced. Technology is used.
[0005]
As an example, a predistorter is used as a technique for reducing adjacent channel leakage power.
In the predistorter, for example, based on a distortion compensation table that associates the level of an input signal with a distortion compensation control value, a signal that is amplified by the amplifier generates distortion for canceling distortion generated in the amplifier. , Compensates for distortion generated in the amplifier, and reduces adjacent channel leakage power.
[0006]
Also, in recent years, an adaptive predistortion (APD) method for adaptively controlling the contents of a distortion compensation table has attracted attention as an example of a distortion compensation method for realizing a highly efficient amplifier. An adaptive predistorter (adaptive predistorter) to be performed has attracted attention.
[0007]
In the following, examples of the related art regarding distortion compensation will be introduced.
In the “linearizer” described in Patent Document 1 by the present applicant, a change range of an input signal of a power amplifier is divided into a plurality of ranges, and each of the divided input signal level points is set as a representative point. The inverse characteristic of the nonlinearity of the power amplifier is calculated to obtain the coefficient of distortion compensation, and the distortion compensation coefficient at other points of the input signal level can be obtained by interpolation or inverse interpolation using the distortion compensation coefficient at the representative point. Have been Japanese Patent Application Laid-Open No. H11-163873 discloses, for example, performing interpolation using a Lagrangian interpolation polynomial, improving the accuracy of interpolation as the degree of such an interpolation polynomial increases, and representing a representative point of an input signal level. It is described that the accuracy of interpolation is improved as the interval is reduced (see Patent Document 1).
[0008]
In the “pre-distortion type nonlinear distortion compensation circuit and digital transmitter using the same” described in Patent Document 2, interpolation and extrapolation are performed using proportional calculation, and a distortion compensation value table is stored in a predetermined form. A distortion compensation value that has never been updated when updated a number of times is updated by interpolation. Specifically, when (p1, q1) and (p2, q2) are known as p1 <p2, interpolation for calculating (p, q) for p satisfying p1 <p <p2, or p <p1 Extrapolation for calculating (p, q) for p satisfying <p2 or p satisfying p1 <p2 <p is performed (see Patent Document 2).
[0009]
In the “signal distortion compensating apparatus and distortion compensating method” described in Patent Literature 3, the distortion compensation coefficient is updated based on the input signal and the signal amplified by the amplifier. Updating the distortion compensation coefficient using a root mean square (LMS) algorithm or a clipped least mean square algorithm has been performed. Also, controlling the value of the step size of the clipped least mean square algorithm and controlling the dynamic range of an A / D (Analog to Digital) converter have been performed (see Patent Document 3).
[0010]
In the “non-linear distortion-compensating power amplifier” described in Patent Document 4, the contents of a table that associates an input signal power value of a power amplifier with a distortion compensation coefficient (control coefficient value) are updated (Patent Document 4). 4).
The “distortion compensation circuit” described in Patent Document 5 compensates for a gain deviation and a quadrature degree error of a quadrature modulator that degrade the accuracy of distortion compensation (see Patent Document 5).
[0011]
[Patent Document 1]
JP 2001-268150 A
[Patent Document 2]
JP 2001-284980 A
[Patent Document 3]
JP-A-2002-111401
[Patent Document 4]
JP 2001-203538 A
[Patent Document 5]
JP-A-11-136302
[0012]
[Problems to be solved by the invention]
However, in the conventional predistorter, although the content of the distortion compensation table is updated, it is desired to further improve the efficiency. Specifically, in the conventional predistorter, for example, when updating the contents of the distortion compensation table, it has been desired to improve the convergence speed of the distortion compensation table and to reduce the power consumption.
[0013]
The present invention has been made in view of such conventional circumstances, and when compensating for distortion generated in an amplifier based on the association between a signal level and a distortion compensation control value that determines a distortion compensation mode, distortion compensation is performed. It is an object of the present invention to provide a distortion compensating device capable of improving efficiency. Specifically, in the present invention, for example, when the association between the distortion compensation control value and the signal level is updated, the convergence speed of the update is improved and the power consumption is reduced.
[0014]
In comparison with the present invention to be described later, in Patent Documents 1 to 5 shown in the above conventional examples, for example, adaptive control of an update cycle of association between a distortion compensation control value and a signal level performed in the present invention is described. Is not described or suggested.
[0015]
[Means for Solving the Problems]
In order to achieve the above object, the distortion compensating device according to the present invention compensates for distortion generated in an amplifier for amplifying a signal as follows.
That is, the signal level detecting means detects the level of the signal amplified by the amplifier, and the distortion compensation executing means performs the signal level detecting means based on the correspondence between the distortion compensation control value for determining the distortion compensation mode and the signal level. Performs distortion compensation on the signal amplified by the amplifier according to the distortion compensation mode corresponding to the signal level detected by.
Further, the distortion compensation control value association updating unit updates the association between the distortion compensation control value and the signal level used for performing the distortion compensation by the distortion compensation executing unit based on the signal amplified by the amplifier, and The cycle control means controls a cycle at which the correspondence between the distortion compensation control value and the signal level is updated by the distortion compensation control value association updating means.
[0016]
Therefore, when updating the association between the distortion compensation control value that determines the distortion compensation mode and the signal level, by controlling the cycle in which the association between the distortion compensation control value and the signal level is updated, the distortion compensation is performed. Efficiency can be improved. Specifically, as a general characteristic, when the update cycle is shortened, the speed of the update process can be increased, and conversely, when the update cycle is lengthened, power consumption can be reduced. .
[0017]
Here, various signals may be used as the signal amplified by the amplifier.
Further, as the amplifier, various amplifiers may be used. For example, one amplifier may be used or a combination of a plurality of amplifiers may be used.
Further, as accuracy for compensating for distortion generated in the amplifier, various accuracy may be used as long as it is practically effective.
[0018]
Various levels such as a power level and an amplitude level may be used as the signal level.
Further, as the distortion compensation mode, for example, a mode in which distortion compensation is performed is used, and various modes may be used.
Further, as the distortion compensation control value, for example, information for determining the distortion compensation mode is used, and specifically, information directly indicating the distortion compensation mode or used for determining the distortion compensation mode. Can be used.
[0019]
In addition, various contents may be used as the content of the correspondence between the distortion compensation control value and the signal level.
Further, as the association between the distortion compensation control value and the signal level, for example, a mode in which the distortion compensation control value is stored in a storage unit such as a memory until it is updated next may be used, or it may be temporarily stored for a necessary period. A mode that can be held in a proper manner may be used.
[0020]
As an example, as the correspondence between the distortion compensation control value and the signal level, one that associates a plurality of signal levels with a distortion compensation control value for each of the plurality of signal levels is used. In this case, as the plurality of signal levels, for example, a representative level value within a predetermined level range in which the level of the signal amplified by the amplifier can be used can be used. Further, as the representative level, for example, a level arranged at equal intervals within the predetermined level range can be used. Also, as the predetermined level range, for example, a fixed range may be used, or a variable range may be used.
[0021]
Further, the distortion compensation mode corresponding to the signal level detected by the signal level detection means includes, for example, a signal level corresponding to the detected signal level among signal levels associated with the distortion compensation control value. Using the form determined based on the distortion compensation control value that has been used, and among the signal levels associated with the distortion compensation control value, the distortion compensation control value corresponding to the signal level closest to the detected signal level Using a mode determined based on the signal level or a distortion corresponding to a signal level that does not match when there is no signal level that matches the detected signal level among the signal levels associated with the distortion compensation control value A mode determined by performing interpolation based on the compensation control value can be used.
[0022]
As a process of distortion compensation for a signal amplified by an amplifier, for example, a process of generating a distortion that can cancel or reduce a distortion generated in the amplifier to zero for a signal amplified by the amplifier. Can be used.
[0023]
In addition, as a signal amplified by an amplifier used for updating the association between the distortion compensation control value and the signal level, for example, a part of the amplified signal is used, and an update process by feedback is performed.
Various modes may be used as the mode for updating the association between the distortion compensation control value and the signal level, or various modes may be used in combination. A mode in which only the value is updated, or a mode in which both the signal level and the distortion compensation control value are updated can be used.
[0024]
In addition, various modes may be used as a mode for controlling the cycle at which the association between the distortion compensation control value and the signal level is updated. For example, the control is performed according to the update state of the association. Such an embodiment can be used.
[0025]
Specifically, the distortion compensation control value association updating unit updates the association between the distortion compensation control value and the signal level at a timing based on the update cycle controlled by the update cycle control unit.
When the update cycle is long, the number of updates performed within the same time is smaller than when the update cycle is short.
[0026]
Further, in the distortion compensation device according to the present invention, as one configuration example, the distortion compensation execution unit has the following distortion compensation control value interpolation unit.
That is, the distortion compensation control value interpolating means performs signal level detection by performing interpolation based on a set of a plurality of distortion compensation control values and signal levels associated in associating the distortion compensation control values with signal levels. A distortion compensation mode corresponding to the signal level detected by the means is determined.
[0027]
Therefore, for example, even when a signal of a signal level not defined in the correspondence between the distortion compensation control value and the signal level is input to the amplifier, the interpolation is performed based on the contents defined in the correspondence. Accordingly, it is possible to determine the distortion compensation mode for the signal of the undefined signal level. By using such interpolation, for example, a distortion compensation mode with relatively good accuracy is determined for many signal levels as compared with the number of sets of the distortion compensation control value and the signal level calculated in updating the association. In addition, it is possible to reduce the burden of the calculation, and to reduce the capacity required for storing the association when the association is stored.
[0028]
Here, as the interpolation, for example, interpolation interpolation may be used, or extrapolation interpolation may be used.
In addition, various modes may be used as the mode of performing the interpolation, for example, a mode of performing the interpolation using a proportional relationship, a mode of performing the interpolation using a second-order or higher-order function, and the like. Can be used.
[0029]
Also, various numbers may be used as the number of sets of the distortion compensation control value and the signal level used for performing the interpolation.
As the association between the signal level obtained by interpolation and the distortion compensation mode, for example, a mode in which the interpolation result is stored in a storage unit such as a memory until the interpolation result is updated next may be used, Alternatively, a mode in which the data is temporarily held for a necessary period may be used.
[0030]
Further, for example, a set of a signal level and a distortion compensation control value associated based on an association between a signal level obtained by interpolation and a distortion compensation mode is used as a signal level and distortion compensation control used for performing the interpolation. A mode that reflects the content of the association with the value may be used.
[0031]
Further, in the distortion compensating apparatus according to the present invention, as one configuration example, the update cycle control means may adjust the distortion compensation control value corresponding to the distortion component generated in the amplifier included in the signal amplified by the amplifier. The period in which the association between the distortion compensation control value and the signal level is updated by the attachment updating unit is extended. Also, the updating cycle control means, as the distortion component generated in the amplifier included in the signal amplified by the amplifier increases, the distortion compensation control value correspondence updating means associates the distortion compensation control value with the signal level. Shorten the period at which the index is updated.
[0032]
Therefore, as the distortion component contained in the signal amplified by the amplifier becomes smaller, that is, as the distortion (residual distortion) component remaining in the amplified signal that cannot be completely compensated for by the distortion compensation becomes smaller. Therefore, since the cycle at which the association between the distortion compensation control value and the signal level is updated is lengthened, the speed of the update process is increased when the residual distortion component is large, while the residual distortion component is small. The power consumption can be relatively reduced as much as possible. Thus, for example, when the association between the distortion compensation control value and the signal level is updated, the convergence speed of the update can be improved, and the power consumption can be reduced.
[0033]
Further, when the distortion component included in the signal amplified by the amplifier increases, the distortion (residual distortion) that remains in the amplified signal according to the magnitude, that is, cannot be completely compensated by the distortion compensation. When the component becomes larger, the cycle of updating the association between the distortion compensation control value and the signal level is shortened in accordance with the magnitude. For this reason, for example, when updating the association between the distortion compensation control value and the signal level, if the component of the distortion becomes large during the convergence process, the update process should be performed again by shortening the update cycle. Can be.
[0034]
Here, as the signal amplified by the amplifier used to control the cycle at which the association between the distortion compensation control value and the signal level is updated, for example, a part of the amplified signal is used, and the signal is updated by feedback. Processing is performed.
Further, as the magnitude of the distortion component generated in the amplifier included in the signal amplified by the amplifier, for example, the magnitude of the distortion detected from the amplified signal may be used, or the magnitude of the distortion related to the amplified signal may be used. The magnitude of the error from the original signal may be regarded as being proportional to the magnitude of the distortion and used. The original signal is a signal amplified by the amplifier, and is, for example, a signal before the distortion is generated by the distortion compensation execution unit (that is, an input signal).
[0035]
Further, as the component of the distortion generated in the amplifier included in the signal amplified by the amplifier becomes smaller, the form in which the period in which the association between the distortion compensation control value and the signal level is updated is lengthened may be various forms. An aspect may be used, for example, by setting one or more thresholds related to the magnitude of the distortion component, and in response to the magnitude of the distortion component being equal to or less than each threshold or being less than each threshold. A mode in which the update cycle is gradually increased can be used.
[0036]
In addition, as the distortion component generated in the amplifier included in the signal amplified by the amplifier increases, the period in which the association between the distortion compensation control value and the signal level is updated is shortened. Aspects may be used.
[0037]
Further, in the distortion compensating apparatus according to the present invention, as one configuration example, the update cycle control unit includes an elapsed time counting unit that counts an elapsed time for processing of a signal to be amplified by the amplifier. The update cycle control means updates the cycle at which the association between the distortion compensation control value and the signal level is updated by the distortion compensation control value association update means as the elapsed time measured by the elapsed time timer increases. Lengthen.
[0038]
Therefore, as the elapsed time related to the processing of the signal to be amplified by the amplifier increases, that is, the accuracy of the distortion compensation is improved, and the distortion remaining in the amplified signal without being completely compensated for by the distortion compensation ( The period in which the association between the distortion compensation control value and the signal level is updated is increased in accordance with the passage of time when the component of (residual distortion) is considered to be small. Therefore, when the elapsed time is short, the speed of the update process increases. On the other hand, as the elapsed time becomes longer, the update cycle can be made relatively longer to reduce the power consumption. Thus, for example, when the association between the distortion compensation control value and the signal level is updated, the convergence speed of the update can be improved, and the power consumption can be reduced.
[0039]
Here, as the elapsed time related to the processing of the signal to be amplified by the amplifier, time to start measuring from various points in time may be used, for example, updating of the association between the distortion compensation control value and the signal level The time measured from the point in time at which the degree of improvement in the accuracy of distortion compensation is grasped is used. As an example, a mode may be used in which the elapsed time at the time when a series of signals to be amplified by the amplifier is input is set to zero and the elapsed time thereafter is counted.
[0040]
Further, as the mode in which the association between the distortion compensation control value and the signal level is updated as the elapsed time increases, various modes may be used. For example, various modes may be used. One or more thresholds related to the size are set, and the mode in which the update cycle is gradually increased in accordance with the magnitude of the elapsed time being equal to or greater than each threshold is used. Can be.
[0041]
Further, in the distortion compensating apparatus according to the present invention, as one configuration example, the update cycle control unit, based on the association between the predetermined condition and the update cycle, sets the distortion compensation control value by the distortion compensation control value association update unit. The cycle at which the association with the signal level is updated is controlled to an update cycle corresponding to the condition.
[0042]
Therefore, based on the association between the predetermined condition and the update cycle, the update cycle corresponding to the condition is specified, and the cycle at which the association between the distortion compensation control value and the signal level is updated is changed to the specified update cycle. By controlling, the update cycle of the association can be controlled.
[0043]
Here, various conditions may be used as the predetermined condition. For example, a condition relating to the magnitude of distortion generated in the amplifier included in the signal amplified by the amplifier or an original condition relating to the signal amplified by the amplifier is used. And a condition relating to the elapsed time relating to the processing of the signal to be amplified by the amplifier.
[0044]
In addition, various contents may be used as the contents of the association between the predetermined condition and the update cycle.
The association between the predetermined condition and the update cycle is, for example, predetermined and stored in a storage unit such as a memory as a table or the like.
[0045]
Hereinafter, examples of the configuration of the distortion compensating apparatus according to the present invention, including those described above, will be described.
In the distortion compensating apparatus according to the present invention, as one configuration example, the distortion compensation control value association updating unit includes a distortion compensation execution unit configured to reduce a distortion component generated in the amplifier included in the signal amplified by the amplifier. , The correspondence between the distortion compensation control value and the signal level used for executing the distortion compensation is updated.
[0046]
Here, various modes may be used to update the association between the distortion compensation control value and the signal level so that the distortion component generated in the amplifier included in the signal amplified by the amplifier is reduced. For example, it is preferable to use a mode in which control is performed so that the distortion component is minimized.
[0047]
In the distortion compensating apparatus according to the present invention, as one configuration example, the distortion compensation executing unit is configured using a distortion compensation control value association storage unit and a distortion compensation distortion generating unit. Then, the distortion compensation control value association storage unit stores the association between the distortion compensation control value and the signal level, and the distortion compensation distortion generation unit, based on the storage content of the distortion compensation control value association storage unit, Distortion is generated for the signal amplified by the amplifier in a distortion compensation mode corresponding to the signal level detected by the signal level detection means. Further, the distortion compensation control value association updating unit updates the association between the distortion compensation control value and the signal level stored in the distortion compensation control value association storage unit based on the signal amplified by the amplifier.
[0048]
Here, as the distortion generated by the distortion compensation distortion generating means, for example, a distortion that can cancel or reduce the distortion generated in the amplifier to zero is used.
As the distortion, for example, distortion of the amplitude of the signal or distortion of the phase of the signal is used. As a specific example, the distortion compensation distortion generating means generates an amplitude distortion for canceling or reducing the amplitude distortion generated in the amplifier to zero, and cancels or reduces the phase distortion generated in the amplifier to zero. Generates phase distortion.
[0049]
Further, in the distortion compensating apparatus according to the present invention, as one configuration example (hereinafter, referred to as configuration example A), the update cycle control means includes a distortion compensation control value association updating means based on the signal amplified by the amplifier. Controls the cycle at which the association between the distortion compensation control value and the signal level is updated.
[0050]
Further, in the distortion compensating apparatus according to the present invention, as one configuration example of the configuration example A, the update cycle control unit includes a distortion component detection unit that detects a distortion component generated in the amplifier included in the signal amplified by the amplifier. Have. The update cycle control means updates the cycle at which the association between the distortion compensation control value and the signal level is updated by the distortion compensation control value association update means as the distortion component detected by the distortion component detection means decreases. Lengthen. Also, the update cycle control means updates the cycle at which the association between the distortion compensation control value and the signal level is updated by the distortion compensation control value association update means as the distortion component detected by the distortion component detection means increases. Shorten.
[0051]
Here, various methods may be used to detect the distortion component generated in the amplifier included in the signal amplified by the amplifier, and for example, the component of the frequency band of the distortion is distorted from the signal. Can be used.
Further, the distortion component detecting means detects a level such as a power level and an amplitude level of the distortion component.
[0052]
Further, in the distortion compensating apparatus according to the present invention, as one configuration example, the update cycle control unit may control the distortion compensation control value and the signal A cycle at which the association with the level is updated is controlled to an update cycle corresponding to the distortion component detected by the distortion component detection means.
[0053]
Further, the distortion compensating apparatus according to the present invention includes, as another configuration example of the configuration example A, a signal modulation unit that modulates a signal before being amplified by an amplifier. The update cycle control means includes signal demodulation means for demodulating the signal amplified by the amplifier, and error detection means for detecting an error from the signal amplified by the amplifier with respect to the demodulation result by the signal demodulation means. The update cycle control means extends the cycle at which the association between the distortion compensation control value and the signal level is updated by the distortion compensation control value association update means as the error detected by the error detection means decreases. You. Further, the update cycle control means shortens the cycle at which the association between the distortion compensation control value and the signal level is updated by the distortion compensation control value association update means as the error detected by the error detection means increases. You.
[0054]
Here, the modulation method performed by the signal modulating means corresponds to the demodulation method performed by the signal demodulating means, and various methods may be used as these methods.
As the error from the signal amplified by the amplifier with respect to the demodulation result, for example, a difference from the original signal with respect to the demodulation result is used, and the difference is a distortion generated by the amplifier included in the signal amplified by the amplifier. It can be regarded as proportional to the size.
As the error, a level such as a power level or an amplitude level is used.
[0055]
Further, in the distortion compensating apparatus according to the present invention, as one configuration example, the update cycle control means may perform the distortion compensation control value Is controlled to an update cycle corresponding to the error detected by the error detection means.
[0056]
Further, in the distortion compensation apparatus according to the present invention, as an example of a configuration for controlling a cycle in which the association between the distortion compensation control value and the signal level is updated in accordance with the elapsed time, an elapsed time clocking unit includes an amplifier. The elapsed time is measured with reference to the point in time when the distortion compensation processing for the signal to be amplified by the above is started.
[0057]
Here, the time at which the distortion compensation process for the signal to be amplified by the amplifier is started is, for example, the time at which the signal is input, or the correspondence between the distortion compensation control value and the signal level for the signal. The time at which the content of the file starts to be updated can be used.
Further, as a mode of measuring the elapsed time based on the time point, for example, a mode in which the elapsed time at the time point is set to zero and the elapsed time thereafter is measured can be used.
[0058]
Further, in the distortion compensating apparatus according to the present invention, as one configuration example, the update cycle control unit may control the distortion compensation control value and the signal The cycle at which the association with the level is updated is controlled to an update cycle corresponding to the elapsed time measured by the elapsed time timer.
[0059]
In the distortion compensating apparatus according to the present invention, as one configuration example, the distortion compensation control value and the signal level associated in the association between the distortion compensation control value and the signal level updated by the distortion compensation control value association updating unit And a distortion compensation control value number control means for controlling the number of sets of
[0060]
Here, for example, a mode may be used in which the number of sets of the distortion compensation control value and the signal level obtained based on the interpolation result is not included in the target to be controlled by the distortion compensation control value number control unit, Alternatively, a mode that is included in the target for performing the control may be used.
[0061]
Further, in the distortion compensating apparatus according to the present invention, as one configuration example, the distortion compensation control value number control means controls the distortion compensation control as the distortion component generated in the amplifier included in the signal amplified by the amplifier decreases. The number of sets of distortion compensation control values and signal levels associated with the distortion compensation control values and signal levels updated by the value association updating unit is increased. Further, the distortion compensation control value number control means includes a distortion compensation control value updated by the distortion compensation control value association updating means as the distortion component generated in the amplifier included in the signal amplified by the amplifier increases. The number of pairs of the distortion compensation control value and the signal level associated with the signal level is reduced.
[0062]
Here, as an aspect of increasing the number of pairs of the distortion compensation control value and the signal level to be associated, for example, the interval between a plurality of signal levels defined by the association between the distortion compensation control value and the signal level is reduced. Such a mode is used. In such a mode, the accuracy of distortion compensation can be improved by reducing the interval.
[0063]
Further, in the distortion compensation device according to the present invention, as one configuration example, the distortion compensation control value number control unit includes an elapsed time clock unit that measures an elapsed time for processing of a signal to be amplified by the amplifier, The distortion compensation control value and the signal level associated in the correspondence between the distortion compensation control value and the signal level updated by the distortion compensation control value association updating unit as the elapsed time measured by the elapsed time timer increases. And increase the number of pairs.
[0064]
Further, in the distortion compensating apparatus according to the present invention, as one configuration example, the distortion compensation control value number control unit includes a distortion compensation control value association updating unit based on an association between a predetermined condition and the number of distortion compensation control values. The number of sets of the distortion compensation control value and the signal level associated with each other in the association between the distortion compensation control value and the signal level updated by is controlled to the number of distortion compensation control values corresponding to the conditions.
The means for controlling the number of distortion compensation control values is described in “Distortion Compensation Device” of Japanese Patent Application No. 2002-227638 by the present applicant.
[0065]
Further, the distortion compensating apparatus according to the present invention as described above can be applied to, for example, a base station apparatus and a relay amplifying apparatus provided in a mobile communication system.
As an example, the base station apparatus or the like according to the present invention includes the distortion compensating apparatus as described above, and generates distortion generated by an amplifier that amplifies a signal to be wirelessly transmitted to the mobile station apparatus. Compensate by the compensator.
[0066]
Here, as the mobile communication system, for example, various systems such as a mobile phone system and a simple mobile phone system (PHS: Personal Handy phone System) may be used.
As a communication method, for example, various methods such as a code division multiple access (CDMA) method, a time division multiple access (TDMA) method, and a frequency division multiple access (FDMA) method may be used.
In addition, various configurations may be used as the mobile communication system, the base station device, the relay amplifier device, the mobile station device, and the like.
[0067]
Further, the base station device and the like according to the present invention are configured as a base station device and the like of a mobile communication system adopting the W-CDMA system as one configuration example.
Further, in the base station apparatus and the like according to the present invention, as one configuration example, a common amplifier is used as an amplifier for performing distortion compensation by the distortion compensation device, and a multicarrier signal is amplified by the common amplifier.
[0068]
Here, the common amplifier can amplify signals of a plurality of frequencies collectively, for example.
Further, as the multi-carrier signal, a signal including signals of a plurality of frequencies is used.
Further, various numbers may be used as the number of signals of a plurality of frequencies included in the multicarrier signal.
[0069]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment according to the present invention will be described with reference to the drawings.
In the present embodiment, a case is shown in which the present invention is applied to a transmission power amplifier with a predistorter provided in a base station device of a mobile communication system adopting the W-CDMA system. In the transmission power amplifier with a predistorter according to the present embodiment, when amplifying a signal to be transmitted wirelessly to a mobile station device or the like by an amplifier, the distortion generated in the amplifier is compensated by a predistorter, Thereby, adjacent channel leakage power is reduced and good communication quality is ensured.
[0070]
First, a first embodiment will be described.
FIG. 1 shows an example of a transmission power amplifier with a predistorter.
The transmission power amplifier with a predistorter of this example includes a predistorter P1 and an amplifier 5.
The predistorter P1 includes a power detection unit 1, a distortion compensation table 2, an attenuator 3, a phase shifter 4, and a control unit 6.
[0071]
First, an overall configuration example and an operation example of the transmission power amplifier with a predistorter according to the present embodiment will be described.
The signal to be amplified by the amplifier 5 is input to the predistorter P1, is distributed in the predistorter P1, and is input to the power detector 1, the attenuator 3, and the controller 6. In this example, for example, a signal in a radio frequency (RF) band is input to the predistorter P <b> 1 as an amplification target by the amplifier 5.
[0072]
The power detection unit 1 detects the power value of a signal input as an amplification target by the amplifier 5 by measurement, and outputs the detection result to the distortion compensation table 2.
The distortion compensation table 2 is composed of a table having distortion compensation characteristics, and specifically holds information for associating a signal power value with a distortion compensation amount. Here, as the distortion compensation characteristic, the inverse characteristic of the nonlinear characteristic in the amplitude-phase plane generated in the amplifier 5 is used. In addition, as the nonlinear characteristics, generally, AM (Amplitude Modulation) -AM conversion and AM-PM (Phase Modulation) conversion using the power of an input signal as an index occur.
[0073]
In this example, information for controlling the amount of signal attenuation in the attenuator 3 (attenuator control amount) and information for controlling the amount of phase shift of the signal in the phase shifter 4 (phase shift) as the amount of distortion compensation. Is controlled by the distortion compensation table 2.
Then, the distortion compensation table 2 outputs the attenuator control amount corresponding to the power value input from the power detection unit 1 to the attenuator 3, and outputs the phase shifter control amount corresponding to the power value to the phase shifter. 4 is output. That is, the attenuator control amount corresponding to the AM-AM conversion is input to the attenuator 3 to control the amplitude of the signal by the attenuator 3, and the phase shifter control amount corresponding to the AM-PM conversion is the phase shifter. The signal is input to the phase shifter 4 and the phase shifter 4 controls the phase of the signal.
[0074]
The attenuator 3 is composed of, for example, a variable attenuator in which the amount of signal attenuation is variable. The signal after the attenuation is output to the phase shifter 4. Note that the attenuator 3 can generate an amplitude distortion to the signal by the attenuation.
[0075]
The phase shifter 4 is composed of, for example, a variable phase shifter in which the amount of phase change of the signal is variable, and converts the phase of the signal input from the attenuator 3 into the phase shifter control amount input from the distortion compensation table 2. , And outputs the signal after the phase change to the amplifier 5 as an output from the predistorter P1. Note that the phase shifter 4 can generate a phase distortion for the signal by the phase change.
[0076]
The amplifier 5 includes, for example, a power amplifier, amplifies a signal input from the phase shifter 4, and outputs the amplified signal. Here, the amplifier 5 generates amplitude distortion and phase distortion when amplifying the signal, and these distortions are caused by the amplitude distortion given by the attenuator 3 and the phase distortion given by the phase shifter 4 to the signal. Is compensated by As a result, an amplified signal without distortion or with reduced distortion is output from the amplifier 5 to the outside of the transmission power amplifier with a predistorter of the present example.
[0077]
A part of the signal output from the amplifier 5 is distributed and input to the control unit 6 as a feedback signal.
The control unit 6 updates the contents of the distortion compensation table 2 based on the amplified signal input from the amplifier 5 so that the amount of distortion included in the amplified signal is reduced and the accuracy of distortion compensation is improved. I do. The control unit 6 of the present example updates the contents of the distortion compensation table 2 using an algorithm that adapts to aging and environmental changes, for example.
[0078]
In this example, an interpolation method is used as a method for generating the contents of the distortion compensation table 2 by updating by the control unit 6. The interpolation method is used, for example, to shorten the convergence time of the distortion compensation table 2 and to solve the problem of smoothing of the distortion compensation table 2. In the interpolation method of this example, the corresponding attenuator control amount and phase shifter control amount are calculated for a representative signal power value, and the attenuator control amount and phase shifter control amount corresponding to other signal power values are calculated. It is calculated by interpolation.
In this specification, the point of the representative signal power value is referred to as an interpolation point. In this example, the number of interpolation points (the number of interpolation points) is fixed. However, for example, a configuration in which the number of interpolation points is variable may be used.
[0079]
Next, a configuration example and an operation example regarding control of a cycle for updating the attenuator control amount and the phase shifter control amount at the interpolation point will be described. In this example, the attenuator control amount and the phase shifter control amount at the interpolation point are updated at the same timing. However, for example, a configuration in which these are updated at different timings may be used.
[0080]
FIG. 2 shows a configuration example of the control unit C1 used as the control unit 6 of the present example.
The control unit 6 according to the present embodiment includes a feedback control unit 11, a voltage controlled oscillator (VCO) 12, a mixer 13, a band pass filter (BPF) 14, a frequency conversion unit 15, and the like. , A / D converter 16 and an interpolation point update cycle calculation unit 17 are provided.
[0081]
The feedback control unit 11 controls the VCO 12, and in this example, controls the oscillation frequency of the VCO 12 to a frequency that realizes the extraction of distortion power in a desired band by the BPF 14 described later.
The VCO 12 oscillates a signal having a frequency controlled by the feedback control unit 11 and outputs the signal to the mixer 13.
The mixer 13 mixes the signal input from the VCO 12 and the amplified signal input from the amplifier 5 to convert the frequency of the amplified signal, and outputs the result of the mixing to the BPF 14. Here, the control unit 6 of this example performs control so that the distortion component generated in the amplifier 5 is included in the mixing result.
[0082]
The BPF 14 filters the mixing result input from the mixer 13 to extract a component in a predetermined band, and outputs the extraction result to the frequency conversion unit 15. Here, in the control unit 6 of the present example, the predetermined band is set so that the extraction result includes the distortion component generated in the amplifier 5.
The frequency conversion unit 15 converts the frequency of the extraction result input from the BPF 14 into a frequency near a direct current (DC) so that the signal that has passed through the BPF 14 can be captured by the A / D converter 16. The conversion result is output to the A / D converter 16.
[0083]
The A / D converter 16 converts the extraction result input from the frequency conversion unit 15 from an analog signal to a digital signal, and outputs the signal to the interpolation point update cycle calculation unit 17. Here, the digital signal input to the interpolation point update cycle calculation unit 17 is information indicating the amount of distortion generated in the amplifier 5 or an amount proportional thereto. The amount of distortion is, for example, the amount of electric power.
The interpolation point update cycle calculation unit 17 calculates the update cycle of the interpolation point (interpolation point update cycle) based on the digital signal input from the A / D converter 16, and controls the interpolation point update cycle.
[0084]
Here, the process of controlling the interpolation point update cycle by the interpolation point update cycle calculation unit 17 using the power of distortion generated outside the band of the signal to be amplified by the amplifier 5 as a feedback signal will be described in detail.
FIG. 3 shows an example of a table (interpolation point update cycle control table) for controlling the interpolation point update cycle. The interpolation point update cycle control table is stored in the memory of the interpolation point update cycle calculation unit 17. ing.
[0085]
In the interpolation point update cycle control table of this example, the range of the distortion amount E and the interpolation point update cycle are set in advance in association with each other. The description “or error signal” in the interpolation point update cycle control table shown in FIG. 3 is described in another embodiment described later, and is not used in this example.
[0086]
Specifically, in this example, N is a numerical value of 2 or more, and the first threshold Th1> the second threshold Th2>...> The (N−2) th threshold Th (N−2)> (th. N-1), a threshold group having a relationship of a threshold Th (N-1) is set, and the first interpolation point update cycle A1 <the second interpolation point update cycle A2 <. An interpolation point update cycle group having a relationship of 1) interpolation point update cycle A (N-1) <Nth interpolation point update cycle A (N) is set.
[0087]
Then, in the interpolation point update cycle control table of this example, when Th1 <E, the interpolation point update cycle A1 is associated, and when Th2 <E ≦ Th1, the interpolation point update cycle A2 is associated,... , Th (N−1) <E ≦ Th (N−2) is associated with the interpolation point update cycle A (N−1), and if 0 ≦ E ≦ Th (N−1), the interpolation point is updated. The update period A (N) is associated. In such an association, the length of the interpolation point update cycle A is controlled to a smaller value (that is, the interpolation point update cycle A is shorter) as the distortion amount E is larger, and the interpolation point update cycle is smaller as the distortion amount E is smaller. The length of A is controlled to a large value (that is, the interpolation point update cycle A is long).
[0088]
4A and 4B show an example of the state of the distortion compensation table. Note that the horizontal axis represents the power of the signal input as an amplification target by the amplifier 5, and the vertical axis represents the control amount. Here, in this example, an attenuator control amount or a phase shifter control amount is used as the control amount.
Points indicated by black circles correspond to interpolation points, and lines connecting the interpolation points correspond to the relationship between input signal power and control amount obtained by interpolation.
[0089]
FIG. 9A shows an example of the state of the distortion compensation table when the interpolation point update cycle is relatively short. This corresponds to, for example, a situation in which the amount of distortion included in the signal fed back from the amplifier 5 is relatively large and is in the middle of convergence.
On the other hand, FIG. 6B shows an example of the state of the distortion compensation table when the interpolation point update cycle is relatively long. This corresponds to, for example, a situation in which the amount of distortion included in the signal fed back from the amplifier 5 is relatively small, and is at an optimal or near optimal stage due to convergence.
[0090]
The interpolation point update cycle calculation unit 17 of this example refers to the interpolation point update cycle control table shown in FIG. 3 and performs distortion compensation according to the magnitude of the distortion amount notified via the A / D converter 16. The interpolation point update cycle of Table 2 is adaptively controlled. At the stage as shown in FIG. 4A, the interpolation point update cycle is short, and high-speed convergence can be achieved. On the other hand, at the stage shown in FIG. 4B, the interpolation point update cycle is long, and power consumption can be reduced.
[0091]
With reference to FIG. 5, an example of a procedure of a process of controlling the interpolation point update cycle performed by the control unit 6 of the present example will be described. Note that the description “or error signal” in the figure is used in another embodiment described later, and is not used in this example.
[0092]
The control unit 6 first detects the distortion amount E (step S1).
Next, the control unit 6 sets the interpolation point update cycle to A1 (step S2), and determines whether the detected distortion amount E is larger than the threshold Th1 (step S3). As a result, when the control unit 6 determines that the distortion amount E is greater than the threshold Th1, the control unit 6 ends the interpolation point update cycle control process according to the detection result (step S9).
[0093]
On the other hand, if the control unit 6 determines that the distortion amount E is equal to or smaller than the threshold Th1, the control unit 6 sets the interpolation point update cycle to A2 (step S4) and determines whether the distortion amount E is larger than the threshold Th2. It is determined whether or not it is (step S5). As a result, when the control unit 6 determines that the distortion amount E is larger than the threshold value Th2, the control unit 6 ends the interpolation point update cycle control process according to the detection result (step S9), and on the other hand, the control unit 6 determines that the distortion amount E is equal to the threshold value Th2. When it is determined that the threshold value is equal to or less than Th2, similar processing is performed for the next threshold value Th3.
[0094]
The control unit 6 sequentially performs the same processing for the subsequent thresholds. For example, when determining that the distortion amount E is equal to or smaller than the threshold Th (N−2), the control unit 6 sets the interpolation point update cycle to A. (N-1) is set (step S6), and it is determined whether or not the distortion amount E is larger than a threshold Th (N-1) (step S7). As a result, when the control unit 6 determines that the distortion amount E is larger than the threshold Th (N-1), the control unit 6 ends the interpolation point update cycle control process according to the detection result (step S9).
[0095]
On the other hand, when the control unit 6 determines that the distortion amount E is equal to or smaller than the threshold Th (N-1), the control unit 6 sets the interpolation point update cycle to A (N) (step S8), and Is completed (step S9).
[0096]
As described above, in the transmission power amplifier with a predistorter of the present example, the output from the amplifier 5 to be subjected to the distortion compensation in the predistorter P1 that performs the distortion compensation of the amplifier 5 with reference to the distortion compensation table 2 The signal is fed back, and the interpolation point update cycle in the generation of the distortion compensation table 2 is adaptively controlled according to the amount of distortion detected from the feedback signal. In the transmission power amplifier with predistorter of the present example, control is performed such that the interpolation point update cycle is shortened when the amount of distortion fed back is large, while the interpolation point update cycle is lengthened when the amount of distortion is small. Thus, the interpolation point updating cycle in the interpolation method used to generate the distortion compensation table 2 is adaptively controlled.
[0097]
As a specific configuration, in the transmission power amplifier with a predistorter of the present example, the signal level detection function 1 for detecting the level of a signal to be amplified by the amplifier 5 and the detection result by the signal level detection function 1 are used. When performing distortion compensation by the distortion compensation functions 2, 3, and 4 or the distortion compensation functions 2, 3, and 4 included in the signal, for example, the interpolation point is updated based on the distortion amount of the output result from the amplifier 5. The control unit 6 controls the period and updates the distortion compensation table 2 based on the output result from the amplifier 5 and the input signal to the predistorter P1, thereby compensating for the distortion generated in the amplifier 5. Further, in the transmission power amplifier with a predistorter of this example, in order to control the interpolation point update cycle, a preset interpolation point update cycle control table is used.
[0098]
Therefore, in the transmission power amplifier with a predistorter of the present example, the update processing of the distortion compensation table 2 can be made more efficient by adaptively controlling the interpolation point update cycle of the distortion compensation table 2 as described above. Specifically, for example, for example, the convergence speed of the distortion compensation table 2 can be increased as a whole in the update process, and the power consumption for the update process of the predistorter P1 can be reduced as the convergence progresses. . That is, in the updating process of the distortion compensation table 2 in the present example, the interpolation point update cycle is short in the initial stage and the convergence speed is increased, while the convergence progresses, the interpolation point update cycle is lengthened and the power consumption is reduced. As a whole, a very efficient distortion compensation process can be realized.
[0099]
In this example, the amplifier 5 corresponds to an amplifier to be subjected to distortion compensation.
In this example, the function of the predistorter P1 constitutes a distortion compensating device.
In this example, the function of the power detection unit 1 constitutes a signal level detection unit, and the function of the distortion compensation table 2, the function of the attenuator 3, and the function of the phase shifter 4 constitute a distortion compensation execution unit. The function of the control unit 6 constitutes a distortion compensation control value association update unit and an update cycle control unit.
[0100]
Further, in this example, the distortion compensation control value is configured by the control amount at the interpolation point, and the correspondence between the control amount and the signal power value is stored in the distortion compensation table 2, and the attenuator 3 and the The mode of the distortion compensation by the phase shifter 4 is determined, and the interpolation point update cycle corresponds to the cycle in which the association between the control amount and the signal power value is updated.
[0101]
In this example, the function of the control unit 6 constitutes a distortion compensation control value interpolation unit.
Further, in this example, the correspondence between the condition regarding the distortion component (distortion amount) and the interpolation point update cycle is stored in the interpolation point update cycle control table.
In this example, the function of the distortion compensation table 2 constitutes a distortion compensation control value association storage unit, and the function of the attenuator 3 and the function of the phase shifter 4 constitute a distortion compensation distortion generating unit. The function of the feedback control unit 11, the function of the VCO 12, the function of the mixer 13, and the function of the BPF 14 constitute a distortion component detecting unit.
[0102]
Next, a second embodiment will be described.
FIG. 6 shows an example of a transmission power amplifier with a predistorter.
The transmission power amplifier with a predistorter according to the present embodiment includes a predistorter P2, a quadrature modulator 24, an upconverter 25, and an amplifier 26.
In addition, the predistorter P2 includes a power detection unit 21, a distortion compensation table 22, a vector calculator 23, and a control unit 27.
[0103]
First, an overall configuration example and an operation example of the transmission power amplifier with a predistorter according to the present embodiment will be described.
The predistorter P2 of this example is a predistorter that processes a baseband signal, and inputs a baseband signal composed of an I signal and a Q signal as a signal to be amplified by the amplifier 26.
[0104]
The baseband signal to be amplified by the amplifier 26 is input to the predistorter P2, distributed in the predistorter P2, and input to the power detector 21, the vector calculator 23, and the controller 27.
The power detection unit 21 detects the power value of a signal input as an amplification target by the amplifier 26 by measurement, and outputs the detection result to the distortion compensation table 22.
The distortion compensation table 22 is composed of a table having distortion compensation characteristics, and specifically holds information that associates a signal power value with a distortion compensation amount.
[0105]
In this example, information (control amount) for controlling the signal calculation in the vector calculator 23 is stored in the distortion compensation table 22 as the distortion compensation amount.
Then, the distortion compensation table 22 outputs a control amount corresponding to the power value input from the power detection unit 21 to the vector calculator 23.
[0106]
The vector computing unit 23 is configured using, for example, a complex multiplier, and distorts a signal input as an amplification target by the amplifier 26 in accordance with a control amount input from the distortion compensation table 22. The output signal is output to the quadrature modulator 24 as an output from the predistorter P2. The vector calculator 23 can apply amplitude distortion and phase distortion to the signal by the vector calculation. The vector calculator 23 of the present embodiment realizes, for example, the function of the attenuator 3 and the function of the phase shifter 4 shown in FIG. 1 for a baseband signal.
[0107]
The quadrature modulator 24 performs quadrature modulation processing for quadrature modulating a carrier with a signal input from the vector calculator 23, and outputs a signal of the quadrature modulation result to the up-converter 25.
The up-converter 25 converts the frequency of the signal input from the quadrature modulator 24 so as to increase the frequency to a radio frequency (RF) band, and outputs the signal after the frequency conversion to the amplifier 26.
[0108]
The amplifier 26 includes, for example, a power amplifier, amplifies a signal input from the up-converter 25, and outputs the amplified signal. Here, the amplifier 26 generates amplitude distortion and phase distortion when amplifying the signal, and these distortions are compensated by the amplitude distortion and the phase distortion given to the signal by the vector calculator 23. As a result, an amplified signal without distortion or with reduced distortion is output from the amplifier 26 to the outside of the transmission power amplifier with a predistorter of the present example.
[0109]
A part of the signal output from the amplifier 26 is divided and input to the control unit 27 as a feedback signal.
For example, the control unit 27 updates the contents of the distortion compensation table 22 based on the amplified signal input from the amplifier 26 so that the amount of distortion included in the amplified signal is reduced and the accuracy of distortion compensation is improved. I do. The control unit 27 of the present example updates the contents of the distortion compensation table 22 using an algorithm that adapts to aging and environmental changes, for example.
[0110]
In this example, an interpolation method is used as a method for generating the contents of the distortion compensation table 22 by updating by the control unit 27. In the interpolation method of this example, the control amount of the vector computing unit 23 corresponding to a representative signal power value is calculated, and the control amounts corresponding to other signal power values are calculated by interpolation.
[0111]
Next, a configuration example and an operation example regarding control of a cycle of updating the control amount of the interpolation point (interpolation point update cycle) will be described.
FIG. 7 shows a configuration example of the control unit C2 used as the control unit 27 of the present example.
The control unit 7 of this example includes a quadrature demodulation unit 31, an error detection unit 32, and an interpolation point update cycle calculation unit 33.
The quadrature demodulation unit 31 performs quadrature demodulation processing on the amplified signal input from the amplifier 26, and outputs digital data of the I signal and the Q signal obtained by the quadrature demodulation to the error detection unit 32 for feedback.
[0112]
The error detection unit 32 calculates the difference signal between the signal composed of the I component and the Q component input as the amplification target of the amplifier 26 and the signal composed of the I component and the Q component input from the quadrature demodulation unit 31. An error (in this example, a vector error) is detected as a signal, and the detected error signal is output to the interpolation point update cycle calculation unit 33. Here, as the error signal, for example, a component in which a signal after amplification is shifted from a signal before amplification by amplification processing by the amplifier 26 is detected, and a component of distortion generated in the amplifier 26 or a component proportional thereto is detected. Is done.
[0113]
The interpolation point update cycle calculation unit 33 calculates an interpolation point update cycle based on the error signal input from the error detection unit 32, and controls the interpolation point update cycle.
Here, the process of controlling the interpolation point update cycle by using the error signal as the feedback signal by the interpolation point update cycle calculation unit 33 is, for example, similar to the interpolation point update cycle control process described in the first embodiment. Is achieved.
[0114]
Specifically, in the memory of the interpolation point update cycle calculation unit 33 of this example, an interpolation point update cycle control table similar to that shown in FIG. 3 is stored. In this example, an “error signal” E is used instead of the “distortion amount” shown in FIG. 3, and the range of the error signal E is associated with the interpolation point update cycle in the interpolation point update cycle control table. The larger the error signal E, the shorter the interpolation point update period A is controlled, and the smaller the error signal E, the longer the interpolation point update period A is controlled.
[0115]
Further, as an example of the procedure of the control of the interpolation point update cycle performed by the control unit 27 of the present example, the same procedure as that shown in FIG. 5 is used, for example. In this example, “error signal” is read instead of “distortion amount” in FIG.
[0116]
As described above, in the transmission power amplifier with a predistorter according to the present embodiment, the output from the amplifier 26 to be subjected to distortion compensation in the predistorter P2 that performs distortion compensation of the amplifier 26 with reference to the distortion compensation table 22. The signal is fed back, and the interpolation point update cycle in the generation of the distortion compensation table 22 is adaptively controlled according to the error amount detected from the feedback signal and the input signal to the predistorter P2. In the transmission power amplifier with a predistorter of this example, control is performed such that the interpolation point update cycle is shortened when the detected error amount is large, while the interpolation point update cycle is lengthened when the error amount is small. Thus, the interpolation point update cycle in the interpolation method used to generate the distortion compensation table 22 is adaptively controlled.
[0117]
As a specific configuration, in the transmission power amplifier with a predistorter of the present example, a signal level detection function 21 for detecting the level of a signal to be amplified by the amplifier 26 and a detection result by the signal level detection function 21 are used. When performing distortion compensation by the distortion compensating functions 22 and 23 and the distortion compensating functions 22 and 23, the interpolation point updating cycle is controlled based on an error amount related to an output result from the amplifier 26, for example. In addition, a control unit 27 that updates the distortion compensation table 22 based on an output result from the amplifier 26 and an input signal to the predistorter P2 is provided, thereby compensating for distortion generated in the amplifier 26. Further, in the transmission power amplifier with a predistorter of this example, in order to control the interpolation point update cycle, a preset interpolation point update cycle control table is used.
[0118]
Therefore, in the transmission power amplifier with a predistorter of the present example, the update processing of the distortion compensation table 22 can be made more efficient by adaptively controlling the interpolation point update cycle of the distortion compensation table 22 as described above. Specifically, for example, for example, it is possible to increase the convergence speed of the distortion compensation table 22 as a whole update process, and to reduce the power consumption related to the update process of the predistorter P2 as the convergence progresses. . That is, in the updating process of the distortion compensation table 22 in this example, the interpolation point update cycle is short in the initial stage and the convergence speed is increased, while the interpolation point update cycle is lengthened and the power consumption is reduced as the convergence progresses. As a whole, a very efficient distortion compensation process can be realized.
[0119]
In this example, the amplifier 26 corresponds to an amplifier to be subjected to distortion compensation.
Further, in this example, a distortion compensator is configured by the function of the predistorter P2.
In this example, the function of the power detection unit 21 constitutes a signal level detection unit, the function of the distortion compensation table 22 and the function of the vector calculator 23 constitute a distortion compensation execution unit, and the control unit 27 Function constitutes a distortion compensation control value association update unit and an update cycle control unit.
[0120]
In this example, the form of distortion compensation by the vector calculator 23 is determined by the control amount.
In this example, the function of the control unit 27 constitutes a distortion compensation control value interpolation unit.
Further, in this example, the correspondence between the condition regarding the error signal and the interpolation point update cycle is stored in the interpolation point update cycle control table.
[0121]
Further, in this example, the function of the distortion compensation table 22 constitutes a distortion compensation control value association storage unit, and the function of the vector calculator 23 constitutes a distortion compensation distortion generation unit.
In this example, the function of the quadrature modulator 24 constitutes signal modulation means, the function of the quadrature demodulation section 31 constitutes signal demodulation means, and the function of the error detection section 32 constitutes error detection means. Have been.
[0122]
Next, a third embodiment will be described.
FIG. 8 shows an example of a transmission power amplifier with a predistorter.
The transmission power amplifier with a predistorter of this example includes a predistorter P3 and an amplifier 45.
Further, the predistorter P3 includes a power detection unit 41, a distortion compensation table 42, an attenuator 43, a phase shifter 44, a timer unit 46, and a control unit 47.
[0123]
First, an overall configuration example and an operation example of the transmission power amplifier with a predistorter according to the present embodiment will be described.
The signal to be amplified by the amplifier 45 is input to the predistorter P3, distributed in the predistorter P3, and input to the power detection unit 41, the attenuator 43, the timer unit 46, and the control unit 47. . In this example, for example, a signal in a radio frequency (RF) band is input to the predistorter P3 as an amplification target by the amplifier 45.
[0124]
The configurations and operations of the power detection unit 41, the distortion compensation table 42, the attenuator 43, the phase shifter 44, and the amplifier 45 are, for example, those shown in FIG. Is the same as
The timer unit 46 has a function of measuring time. In this example, the time at which the signal to be amplified by the amplifier 45 is input is set to zero, and the elapsed time is counted. The time is output to the control unit 47. Here, the notification of the elapsed time from the timer unit 46 to the control unit 47 is performed, for example, at all times, at predetermined time intervals, or at predetermined time intervals.
[0125]
For example, the control unit 47 updates the contents of the distortion compensation table 42 based on the amplified signal input from the amplifier 45 so that the amount of distortion included in the amplified signal is reduced and the accuracy of distortion compensation is improved. I do. The control unit 47 of this example updates the contents of the distortion compensation table 42 using an algorithm that adapts to aging and environmental changes, for example.
[0126]
In this example, an interpolation method is used as a method of generating the contents of the distortion compensation table 42 by updating by the control unit 47. In the interpolation method of this example, the corresponding attenuator control amount and phase shifter control amount are calculated for a representative signal power value, and the attenuator control amount and phase shifter control amount corresponding to other signal power values are calculated. It is calculated by interpolation.
[0127]
Next, the process of controlling the cycle (interpolation point update cycle) of updating the control amount of the interpolation point (attenuator control amount or phase shifter control amount) based on the elapsed time by the control unit 47 of this example will be described in detail. explain.
FIG. 9 shows an example of a table (interpolation point update cycle control table) for controlling the interpolation point update cycle. The interpolation point update cycle control table is stored in the memory of the control unit 47.
[0128]
In the interpolation point update cycle control table of this example, the range of the time t from the start of convergence for the distortion compensation table 42 and the interpolation point update cycle are set in advance in association with each other. Here, in this example, as the time t from the start of the convergence, the time elapsed from the time when the signal to be amplified by the amplifier 45 is input to the predistorter P3 is used.
In this example, in general, the longer the elapsed time from the start of convergence, the smaller the amount of distortion to be fed back as shown in the first embodiment and the smaller the error signal related to the feedback signal as shown in the second embodiment. Take advantage of the nature of becoming.
[0129]
Specifically, in this example, N is a numerical value of 2 or more, and the first threshold T1 <the second threshold T2 <... <The (N−2) th threshold T (N−2) <the ( N-1), a threshold group having a relationship of a threshold value T (N-1) is set, and the first interpolation point update cycle A1 <the second interpolation point update cycle A2 <. An interpolation point update cycle group having a relationship of 1) interpolation point update cycle A (N-1) <Nth interpolation point update cycle A (N) is set.
[0130]
Then, in the interpolation point update cycle control table of this example, the interpolation point update cycle A1 is associated when 0 <t ≦ T1, and the interpolation point update cycle A2 is associated when T1 <t ≦ T2. .., When T (N−2) <t ≦ T (N−1), the interpolation point update period A (N−1) is associated, and when T (N−1) <t, the interpolation point The update period A (N) is associated. In such an association, the interpolation point update cycle A is controlled to a shorter value as the elapsed time t is shorter, and the interpolation point update cycle A is controlled to a longer value as the elapsed time t is longer.
[0131]
Referring to FIG. 10, an example of a procedure of a process of controlling the interpolation point update cycle performed by the control unit 47 of the present example will be described.
The control unit 47 first detects the elapsed time t notified from the timer unit 46 (Step S11).
Next, the control unit 47 sets the interpolation point update cycle to A1 (step S12), and determines whether the detected elapsed time t is greater than the threshold T1 (step S13). As a result, when the control unit 47 determines that the elapsed time t is equal to or less than the threshold value T1, the control unit 47 ends the interpolation point update cycle control process according to the detection result (step S19).
[0132]
On the other hand, when determining that the elapsed time t is greater than the threshold T1, the control unit 47 sets the interpolation point update cycle to A2 (step S14), and determines whether the elapsed time t is greater than the threshold T2. Is determined (step S15). As a result, when the control unit 47 determines that the elapsed time t is equal to or less than the threshold value T2, the control unit 47 ends the interpolation point update cycle control process according to the detection result (step S19), while the elapsed time t is not When it is determined that the threshold value is larger than the threshold value T2, similar processing is performed for the next threshold value T3.
[0133]
The control unit 47 sequentially performs the same processing for the subsequent threshold values. For example, when determining that the elapsed time t is greater than the threshold value T (N−2), the control unit 47 sets the interpolation point update cycle to A ( N-1) (step S16), and it is determined whether the elapsed time t is greater than a threshold value T (N-1) (step S17). As a result, when the control unit 47 determines that the elapsed time t is equal to or less than the threshold value T (N-1), the control unit 47 ends the interpolation point update cycle control process related to the detection result (step S19).
[0134]
On the other hand, if the control unit 47 determines that the elapsed time t is greater than the threshold value T (N-1), the control unit 47 sets the interpolation point update cycle to A (N) (step S18). The interpolation point update cycle control process ends (step S19).
As described above, in the interpolation point update cycle control processing of this example, the processing is started from a short interpolation point update cycle, and the interpolation point update cycle is lengthened according to the elapsed time.
[0135]
As described above, in the transmission power amplifier with a predistorter of this example, in the predistorter P3 that performs the distortion compensation of the amplifier 45 with reference to the distortion compensation table 42, the time elapsed from the start of the convergence of the distortion compensation table 42 Accordingly, the interpolation point update cycle in the generation of the distortion compensation table 42 is adaptively controlled. In the transmission power amplifier with a predistorter of this example, control is performed such that the interpolation point update cycle is shortened when the elapsed time is short, while the interpolation point update cycle is lengthened when the elapsed time is long. , The interpolation point updating cycle in the interpolation method used to generate the distortion compensation table 42 is adaptively controlled.
[0136]
As a specific configuration, in the transmission power amplifier with a predistorter of this example, a signal level detection function 41 for detecting the level of a signal to be amplified by the amplifier 45 and a detection result by the signal level detection function 41 are used. A distortion compensation function 42, 43, 44 for compensating for distortion contained in the signal; a time measurement function 46 for measuring the time elapsed in the distortion compensation from the time when the signal to be amplified by the amplifier 45 is input; When performing distortion compensation by the functions 42, 43, and 44, for example, the interpolation point update cycle is controlled based on the measurement result of the elapsed time from the time measurement function 46, and the output result from the amplifier 45 and the input to the predistorter P3 The control unit 47 updates the distortion compensation table 42 based on the signal, thereby compensating for distortion generated in the amplifier 45. Further, in the transmission power amplifier with a predistorter of this example, in order to control the interpolation point update cycle, a preset interpolation point update cycle control table is used.
[0137]
Therefore, in the transmission power amplifier with a predistorter of the present example, the update processing of the distortion compensation table 42 can be made more efficient by adaptively controlling the interpolation point update cycle of the distortion compensation table 42 as described above. Specifically, for example, it is possible to increase the convergence speed of the distortion compensation table 42 as a whole update process, and to reduce the power consumption related to the update process of the predistorter P3 as the convergence progresses. . That is, in the process of updating the distortion compensation table 42 in this example, the interpolation point update cycle is short in the initial stage and the convergence speed is increased, while the interpolation point update cycle is lengthened and the power consumption is reduced as the convergence progresses. As a whole, very efficient distortion compensation processing can be realized.
[0138]
In this example, the function of the predistorter P3 constitutes a distortion compensating device.
In this example, the function of the timer section 46 constitutes an elapsed time counting means.
Further, in this example, the correspondence between the condition regarding the elapsed time and the interpolation point update cycle is stored in the interpolation point update cycle control table.
[0139]
Next, a fourth embodiment will be described.
FIG. 11 shows an example of a transmission power amplifier with a predistorter.
The transmission power amplifier with a predistorter of the present example includes a predistorter P4, a quadrature modulator 54, an upconverter 55, and an amplifier 56.
In addition, the predistorter P4 includes a power detection unit 51, a distortion compensation table 52, a vector calculator 53, a timer unit 57, and a control unit 58.
[0140]
First, an overall configuration example and an operation example of the transmission power amplifier with a predistorter according to the present embodiment will be described.
The signal to be amplified by the amplifier 56 is input to the predistorter P4, distributed in the predistorter P4, and input to the power detector 51, the vector calculator 53, the timer 57, and the controller 58. You. In this example, for example, a signal in a baseband is input to the predistorter P4 as an object to be amplified by the amplifier 56.
[0141]
The configuration and operation of the power detection unit 51, the distortion compensation table 52, the vector calculator 53, the quadrature modulator 54, the up-converter 55, and the amplifier 56 are, for example, those shown in FIG. , 23, 24, 25, and 26.
The timer unit 57 has a function of measuring time. In this example, the time at which the signal to be amplified by the amplifier 56 is input is set to zero elapsed time, and the elapsed time thereafter is counted. The time is output to the control unit 58. Here, such notification of the elapsed time from the timer unit 57 to the control unit 58 is performed, for example, constantly, at predetermined time intervals, or at predetermined time intervals.
[0142]
For example, the control unit 58 updates the contents of the distortion compensation table 52 based on the amplified signal input from the amplifier 56 so that the amount of distortion included in the amplified signal is reduced and the accuracy of distortion compensation is improved. I do. The control unit 58 of the present example updates the contents of the distortion compensation table 52 using an algorithm that adapts to aging and environmental changes, for example.
[0143]
In this example, an interpolation method is used as a method for generating the contents of the distortion compensation table 52 by updating by the control unit 58. In the interpolation method of this example, the control amount of the vector computing unit 53 corresponding to a representative signal power value is calculated, and the control amounts corresponding to other signal power values are calculated by interpolation.
[0144]
Further, the control unit 58 calculates an interpolation point update cycle based on the elapsed time notified from the timer unit 57, and controls the interpolation point update cycle.
Here, the control unit 58 controls the interpolation point update cycle using the elapsed time, for example, in the same manner as the interpolation point update cycle control processing described in the third embodiment.
[0145]
Specifically, the memory of the control unit 58 of the present example stores an interpolation point update cycle control table similar to that shown in FIG.
In addition, as an example of the procedure of the control of the interpolation point update cycle performed by the control unit 58 of the present example, the same procedure as that shown in FIG. 10 is used, for example.
[0146]
As described above, in the transmission power amplifier with a predistorter of the present example, the predistorter P4 that performs the distortion compensation of the amplifier 56 with reference to the distortion compensation table 52 in the same manner as described in the third embodiment, for example. In the above, the update processing of the distortion compensation table 52 can be made more efficient by adaptively controlling the interpolation point update cycle of the distortion compensation table 52 as described above.
[0147]
In this example, the function of the predistorter P4 constitutes a distortion compensating device.
In this example, the function of the timer unit 57 constitutes an elapsed time counting means.
Further, in this example, the correspondence between the condition regarding the elapsed time and the interpolation point update cycle is stored in the interpolation point update cycle control table.
[0148]
As described in the first to fourth embodiments, in the transmission power amplifier with a predistorter according to the present embodiment, when performing distortion compensation for distortion generated in an amplifier that amplifies a signal, By controlling the update period (in this embodiment, the interpolation point update period) of the control value used for performing the distortion compensation, the efficiency of the distortion compensation can be improved.
[0149]
Here, the configuration of the distortion compensation device and the like according to the present invention is not necessarily limited to the configuration described above, and various configurations may be used. Note that the present invention can be provided, for example, as a method or a method for executing the processing according to the present invention, or a program for realizing such a method or method.
Further, the application field of the present invention is not necessarily limited to the above-described fields, and the present invention can be applied to various fields.
[0150]
Various processes performed in the distortion compensator according to the present invention include, for example, a processor executing a control program stored in a ROM (Read Only Memory) in a hardware resource including a processor and a memory. A configuration that is controlled may be used, and for example, each functional unit for executing the processing may be configured as an independent hardware circuit.
Further, the present invention can be understood as a computer-readable recording medium such as a floppy (registered trademark) disk or a CD (Compact Disc) -ROM storing the above-mentioned control program or the program (the program itself). The processing according to the present invention can be performed by inputting the program from the recording medium to the computer and causing the processor to execute the program.
[0151]
【The invention's effect】
As described above, according to the distortion compensating apparatus according to the present invention, the level of the signal amplified by the amplifier is detected, and the detection is performed based on the correspondence between the signal level and the distortion compensation control value that determines the distortion compensation mode. The distortion compensation is performed on the signal amplified by the amplifier according to the distortion compensation mode corresponding to the signal level to be performed, and the correspondence between the signal level and the distortion compensation control value used for performing the distortion compensation based on the signal amplified by the amplifier By updating the attachment, when compensating for the distortion generated by the amplifier that amplifies the signal, the cycle at which the association between the distortion compensation control value and the signal level is updated is controlled, so that the efficiency of distortion compensation is improved. It becomes possible to plan.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a configuration example of a transmission power amplifier with a predistorter according to a first embodiment.
FIG. 2 is a diagram illustrating a configuration example of a control unit.
FIG. 3 is a diagram illustrating an example of an interpolation point update cycle control table.
FIG. 4 is a diagram illustrating an example of a state of a distortion compensation table.
FIG. 5 is a diagram illustrating an example of a procedure of an interpolation point update cycle control process performed by a control unit.
FIG. 6 is a diagram illustrating a configuration example of a transmission power amplifier with a predistorter according to a second embodiment.
FIG. 7 is a diagram illustrating a configuration example of a control unit.
FIG. 8 is a diagram illustrating a configuration example of a transmission power amplifier with a predistorter according to a third embodiment.
FIG. 9 is a diagram illustrating an example of an interpolation point update cycle control table.
FIG. 10 is a diagram illustrating an example of a procedure of an interpolation point update cycle control process performed by a control unit.
FIG. 11 is a diagram illustrating a configuration example of a transmission power amplifier with a predistorter according to a fourth embodiment.
[Explanation of symbols]
P1, P2, P3, P4 Pre-distorter,
1, 21, 41, 51 ... power detection unit,
2, 22, 42, 52 ··· distortion compensation table, 3, 43 · · attenuator,
4, 44 · · · phase shifter, 5, 26, 45, 56 · · · amplifier,
6, 27, 47, 58, C1, C2 ... control unit,
11. feedback control unit, 12. voltage-controlled oscillator,
13. Mixer, 14. Bandpass filter, 15. Frequency converter,
16, an A / D converter, 17, 33, an interpolation point update cycle calculation unit,
23, 53... Vector calculator, 24, 54... Quadrature modulator,
25, 55 ... up converter, 31 ... quadrature demodulator,
32 error detection unit, 46, 57 timer unit,

Claims (5)

In a distortion compensator that compensates for distortion generated by an amplifier that amplifies a signal,
Signal level detection means for detecting the level of the signal amplified by the amplifier,
A distortion that performs distortion compensation on a signal amplified by an amplifier in a distortion compensation mode corresponding to a signal level detected by a signal level detection unit based on a correspondence between a signal level and a distortion compensation control value that determines a distortion compensation mode. Compensation execution means;
Distortion compensation control value association updating means for updating the association between the signal level and the distortion compensation control value used for performing distortion compensation by the distortion compensation performing means based on the signal amplified by the amplifier,
Update cycle control means for controlling the cycle at which the correspondence between the distortion compensation control value and the signal level is updated by the distortion compensation control value correspondence updating means,
A distortion compensating device comprising: The distortion compensator according to claim 1,
The distortion compensation executing means interpolates based on a set of a plurality of distortion compensation control values and signal levels associated in associating the distortion compensation control value with the signal level, and thereby detects a signal detected by the signal level detecting means. Having a distortion compensation control value interpolation means for determining a distortion compensation mode corresponding to the level,
A distortion compensator characterized by the above-mentioned. In the distortion compensating device according to claim 1 or 2,
The updating cycle control means updates the association between the distortion compensation control value and the signal level by the distortion compensation control value association updating means as the distortion component generated in the amplifier included in the signal amplified by the amplifier decreases. And the distortion compensation control value association updating unit updates the association between the distortion compensation control value and the signal level as the distortion component generated in the amplifier included in the signal amplified by the amplifier increases. To shorten the period
A distortion compensator characterized by the above-mentioned. In the distortion compensating device according to claim 1 or 2,
The update cycle control means has elapsed time counting means for counting elapsed time with respect to processing of a signal to be amplified by the amplifier, and performs distortion compensation control as the elapsed time counted by the elapsed time counting means increases. Lengthening the cycle in which the association between the distortion compensation control value and the signal level is updated by the value association updating means,
A distortion compensator characterized by the above-mentioned. In the distortion compensator according to claim 3 or claim 4,
The update cycle control means, based on the association between the predetermined condition and the update cycle, corresponds to the condition in which the cycle at which the association between the distortion compensation control value and the signal level is updated by the distortion compensation control value association update means Control to update cycle,
A distortion compensator characterized by the above-mentioned.

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