JP2005012419A - Amplification device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a distortion compensation amplification device of a predistortion system in which a control level of an amplifier is reduced by a control means in the case that the magnitude of a distortion component detected by a distortion component detection means exceeds a threshold. <P>SOLUTION: In the distortion compensation amplification device of a predistortion system, an inputted base band signal is converted to an analog signal, and the converted signal is amplified by the amplifier, and distortion generated in the amplifier is compensated. The distortion compensation amplification device of a predistortion system is constituted in such a way that even when the magnitude of a distortion component included in a distortion-compensated amplified signal increases, the operation of the amplification device can be continued by limiting the level of an input wave on the basis of the magnitude of the distortion component. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an amplifying apparatus that amplifies a signal by an amplifier and compensates for distortion generated by the amplifier, and in particular, operates even when the magnitude of a distortion component included in the amplified signal after distortion compensation becomes large. The present invention relates to an amplification device that can be continued.
[0002]
[Prior art]
For example, in a base station apparatus of a mobile communication system, a predistortion distortion compensation amplifier (PD distortion compensation amplifier) is used as a high-frequency distortion compensation amplifier, and a signal to be transmitted wirelessly to the mobile station apparatus is amplified. Amplification is performed to compensate for distortion generated in the amplifier.
[0003]
FIG. 2 shows an example of a basic configuration of an adaptive PD distortion compensation amplifier (APD distortion compensation amplifier).
The APD distortion compensation amplifier shown in FIG. 1 includes a delay device 201, a predistortion circuit 202, an amplifier 203 that is a distortion compensation target, an envelope detector 204, a memory 205 that stores a compensation table, a side A band power detector 206, an integrator 207, and a controller 208 are included. The predistortion circuit 202 is composed of a variable attenuator 209 and a phase shifter 210. The memory 205 also stores a variable attenuator table 211 and a phase shifter table 212 as compensation tables.
[0004]
An example of the operation performed by the APD distortion compensation amplifier shown in FIG.
When a high-frequency input signal is input to the delay device 201, the envelope of the input signal is detected by the envelope detector 204 at the same time. The output from the delay unit 201 is input to the amplifier 203 after the amplitude is adjusted by the variable attenuator 209 and the phase is adjusted by the phase shifter 210 in the predistortion circuit 202. The amplifier 203 cancels out the distortion component generated by the predistortion circuit 202 and the distortion component generated by the amplifier 203 with respect to the input signal, and the amplifier 203 outputs a high-frequency transmission signal with distortion compensation. .
[0005]
The accuracy of the distortion component cancellation is determined by whether or not the distortion characteristic of the predistortion circuit 202 and the nonlinearity of the amplifier 203 are well matched. The variable attenuator table 211 stores the correspondence between the envelope information of the input signal and the control mode (correction data) of the variable attenuator 209, and the input signal envelope information and the phase shifter 210 are stored in the phase shifter table 212. The correspondence with the control mode (correction data) is stored. The envelope information of the input signal obtained by the envelope detector 204 is collated in the variable attenuator table 211 and the phase shifter table 212 in the memory 205, and thereby correction data corresponding to the envelope information changing every moment is obtained. The amount of attenuation of the signal amplitude by the variable attenuator 202 and the amount of change of the signal phase (phase shift amount) by the phase shifter 210 are controlled by reading from the respective tables 211 and 212 and the signal of the correction data.
[0006]
In addition, feedback control is performed in order to improve and optimize the accuracy of the correction amount. That is, the power of the sideband component that becomes the adjacent channel leakage power in the power spectrum of the transmission output from the amplifier 203 is detected by the sideband power detector 206, and the detection result is integrated at regular intervals by the integrator 207. The integration result is input to the controller 208, and the controller 208 updates the stored values of the variable attenuator table 211 and the phase shifter table 212 based on the input integration value. As a result, the control signal is adaptively (adaptively) so that the signal of the optimum correction data is input from the variable attenuator table 211 and the phase shifter table 212 to the variable attenuator 209 and the phase shifter 210 of the predistortion circuit 202. Is done.
[0007]
In addition, since the delay time occurs in the control processing timing of the predistortion circuit 202 based on the envelope information and the transmission output sideband power information with respect to the timing of the input signal, the input signal is converted into the predistortion circuit 202 as described above. Before the input to the delay time, the delay unit 201 delays the time by the same time as the delay time required for the control processing.
[0008]
An example of a related art relating to a distortion detector that detects distortion generated in an amplifier will be described.
Some conventional distortion detectors (hereinafter referred to as distortion detector A) detect a third-order intermodulation distortion generated by an amplifier with a narrow-band filter when a plurality of fundamental waves are amplified by the amplifier. In this distortion detector A, for example, when the frequencies of a plurality of fundamental waves are not fixed, it is difficult to detect third-order intermodulation distortion using a filter (see, for example, Patent Document 1). .
[0009]
Further, in a conventional distortion detector (hereinafter referred to as distortion detector B), when a digital modulation wave is amplified by the main amplifier, a multiple wave of the signal frequency is generated by a filter connected in parallel to the output terminal of the main amplifier. The signal is passed through, amplified by the amplifier, detected by the detector, converted into a DC voltage signal according to the input level, and generated by the non-linearity of the main amplifier based on the DC voltage signal. That detect adjacent channel leakage power (ACP: Adjacent Channel Power) (see, for example, Patent Document 1).
[0010]
Here, the distortion detector B detects ACP as a distortion component generated in the amplifier. Further, for example, the third harmonic wave is suitable for being used to detect ACP because the amount of power change of the distorted wave is larger than that of the second harmonic wave. As an example, the filter of the distortion detector B passes a second harmonic or a third harmonic as a multiple wave (see, for example, Patent Document 1).
[0011]
Here, the APD distortion compensation amplifier has been described. However, as an application of the APD distortion compensation amplifier, there is a baseband input as shown in FIG. Reference numeral 301 denotes a digital / analog conversion unit (D / A conversion unit) that converts an input digital signal into an analog signal, 302 denotes a direct modulation unit that performs direct modulation on the converted analog signal, 303 denotes a transmitter, and 304 denotes a transmitter. A mixer, 305 is a combiner, and 306 is an APD unit which is a basic circuit of the APD, and corresponds to the APD described so far.
[0012]
Here, the input signal is digital data, and the input signal which is the baseband signal of each carrier of the multicarrier signal is converted into an analog signal by the D / A conversion unit 301. Further, the converted analog signal is orthogonally modulated by the orthogonal modulation unit 302. The orthogonally modulated input signal is frequency-converted by the mixer 304 based on the carrier frequency output from the transmitter 303, and up-converted to a high frequency. In FIG. 3, a transmitter 303 and a mixer 304 are provided for each carrier of an input signal, and up-conversion is performed for each carrier. The output of the mixer 304 of each carrier is combined by the combiner 5 to become a multicarrier signal. The multicarrier signal output from the combiner 305 is input to the APD unit 306, and the input signal is subjected to distortion compensation and amplified.
[0013]
[Patent Document 1]
JP 2000-286644 A
[0014]
[Problems to be solved by the invention]
However, in the conventional PD distortion compensation amplifier as shown in FIG. 2 above, for example, the distortion component is greatly increased due to the abnormality of the amplifier 203, and the distortion component generated by the predistortion circuit 202 is generated in the amplifier 203. The distortion component cannot be canceled. When such a situation occurs, it is necessary to stop transmission immediately because the distortion output becomes spurious and interferes with other radio waves. In such a case, there is a problem that the PD distortion compensation amplifier cannot be operated.
[0015]
The present invention has been made to solve such a conventional problem. When a signal is amplified by an amplifier and the distortion generated by the amplifier is compensated, for example, the distortion included in the amplified signal after distortion compensation is provided. It is an object of the present invention to provide an amplifying device that can continue operation even when the component size increases.
[0016]
[Means for Solving the Problems]
In order to achieve the above object, in the amplifying apparatus according to the present invention, the following processing is performed when a signal is amplified by an amplifier and distortion generated by the amplifier is compensated.
That is, the distortion component magnitude detection means detects the magnitude of the distortion component generated in the amplifier included in the signal amplified by the amplifier after distortion compensation. Then, the amplified signal level reduction control means performs control so that the level of the amplified signal by the amplifier is reduced when the magnitude of the distortion component detected by the distortion component magnitude detection means exceeds a predetermined threshold value. .
[0017]
Therefore, for example, even when the magnitude of the distortion component included in the amplified signal after distortion compensation is increased, the level of the amplified signal by the amplifier is controlled to be reduced. The level of distortion included can be reduced, and the operation of the amplification device can be continued. As an example, when a signal to be transmitted by radio is amplified, it is possible to prevent the distortion output from becoming spurious and disturbing other radio waves. Transmission can continue.
[0018]
Usually, it is not desirable for the operator to turn off the power supply of the amplification device and stop the amplification device during operation. In the amplifying apparatus according to the present invention, such a situation can be avoided, and even when the magnitude of the distortion component included in the amplified signal after distortion compensation is increased, the output is reduced and the operation is continued. be able to.
[0019]
Here, various signals may be used as a signal to be amplified by the amplifier, and for example, a signal to be transmitted by radio may be used.
Various amplifiers may be used. For example, an amplifier composed of one amplifying element may be used, or a plurality of amplifying elements may be combined. May be used.
[0020]
The distortion component generated in the amplifier included in the signal amplified by the amplifier after distortion compensation includes, for example, the signal after distortion compensation and after amplification by the amplifier. The distortion component generated by the amplifier is used. That is, such a distortion component is a distortion component generated in the amplifier, and corresponds to a distortion (residual distortion) component that cannot be compensated by the distortion compensation.
[0021]
In addition, the distortion component magnitude detection means does not necessarily need to detect the magnitude of all distortion components generated in the amplifier. For example, the magnitude of some distortion components generated in the amplifier is detected. Also good.
In addition, when detecting the magnitude of a part of the distortion generated in the amplifier by the distortion component magnitude detecting means, various magnitudes of the components may be detected. For example, distortion of a preset frequency may be detected. A mode in which the size of the component is detected can be used. As an example, a mode in which the magnitude of the third harmonic frequency component or the second harmonic frequency component of the signal (basic signal) to be amplified by the amplifier is detected as the distortion component magnitude is used. Can do.
[0022]
In addition, various magnitudes of distortion components may be detected. For example, the magnitude of a level such as electric power can be detected.
Further, as the magnitude of the distortion component, for example, an integrated value of the level of the distortion component detected in a predetermined period, or a temporal average value of the level of the distortion component detected in the predetermined period can be used. It is. In this case, as the predetermined period, various periods may be used according to, for example, a communication method.
[0023]
Various values may be used as the predetermined threshold used by the amplified signal level reduction control means. As an example, the magnitude of the distortion component that is detected in the case where distortion that is large enough to cause an adverse effect such as spurious due to inaccurate distortion compensation remains in the amplified signal after distortion compensation. The value can be used as a predetermined threshold. In this aspect, when distortion that is large enough to cause the adverse effect remains in the amplified signal after distortion compensation, the distortion included in the amplified signal after distortion compensation Control is performed to reduce the level of.
[0024]
Further, in the above description, the case where the magnitude of the distortion component detected by the distortion component magnitude detection unit exceeds the predetermined threshold value is described, but particularly when the magnitude of the distortion component is equal to the predetermined threshold value, There is no limitation, and for example, it may be handled in the same manner as when a predetermined threshold value is exceeded, or another aspect may be used.
[0025]
Various modes can be used for controlling the level of the amplified signal by the amplifier to be reduced. For example, a variable attenuator for attenuating the signal is provided at the front stage of the amplifier and amplified by the amplifier. A mode for attenuating a signal before being attenuated, a mode for attenuating a signal after being amplified by the amplifier by providing a variable attenuator etc. for attenuating the signal, or a variable gain amplifier A configuration in which the level of the signal after amplification is reduced by changing the gain of the amplifier by configuring can be used.
[0026]
Various levels may be used for controlling the level of the amplified signal by the amplifier to be reduced by the amplified signal level reduction control means. For example, it is possible to prevent the occurrence of an adverse effect due to distortion. For example, the control is performed so that the magnitude of the distortion component detected by the distortion component magnitude detection unit is less than a predetermined threshold (or less than a predetermined threshold). The manner of doing can be used.
[0027]
Moreover, in the amplifying apparatus according to the present invention, as one configuration example, the following means is provided to compensate for distortion generated in the amplifier. This configuration example corresponds to the adaptive predistortion method.
That is, the predistortion means generates distortion with respect to the signal before being amplified by the amplifier. Then, the predistortion control means controls the distortion generated by the predistortion means based on the magnitude of the distortion component detected by the distortion component magnitude detection means.
[0028]
Here, the distortion generated by the predistortion means is, for example, a distortion that can cancel the distortion generated in the amplifier or a distortion that can cancel the distortion generated in the amplifier. More specifically, the distortion generated by the amplifier is inverted, that is, the distortion is the same as the distortion generated by the amplifier, but the amplitude is the same and the phase is opposite (that is, the phase is shifted by 180 degrees). Or it is controlled to approach such distortion.
[0029]
Further, the predistortion control means controls the distortion generated by the predistortion means so that the magnitude of the distortion component detected by the distortion component magnitude detection means becomes small. The distortion generated by the predistortion means is controlled so that the magnitude of the distortion component detected by the height detection means is minimized.
[0030]
In addition, various modes may be used as a mode for controlling the distortion generated by the predistortion unit by the predistortion control unit. For example, a mode for controlling the amplitude and phase of the distortion can be used. .
[0031]
Further, as an example, the signal level detection means for detecting the level of the signal before being amplified by the amplifier, and predistortion control mode storage means for storing the signal level and the control mode of the predistortion means in association with each other, A mode in which the predistortion unit is controlled using the control mode stored in the predistortion control mode storage unit in association with the signal level detected by the level detection unit can be used. Further, in such an aspect, for example, an aspect in which the predistortion control means updates the stored content of the predistortion control aspect storage means based on the magnitude of the distortion component detected by the distortion component magnitude detection means. Can be used.
[0032]
The distortion compensation method performed by the amplifying apparatus is not necessarily limited to the predistortion method or the adaptive predistortion method, and other methods may be used. As an example, a feedforward method (FF method) can also be used as a distortion compensation method. In this case, the present invention provides, for example, a feedforward distortion compensation having a distortion detection loop and a distortion compensation loop (distortion removal loop). Applied to amplifier. In a conventional feedforward distortion compensation amplifier, control using a pilot signal is performed.
[0033]
Moreover, the amplification device according to the present invention can be applied to, for example, a base station device or a relay amplification device provided in a wireless communication system such as a mobile communication system.
Here, as the wireless communication system, for example, various systems such as a mobile phone system and a simple mobile phone system (PHS) may be used.
As communication methods, for example, CDMA (Code Division Multiple Access) method, W (Wide band) -CDMA method, TDMA (Time Division Multiple Access) method, FDMA (Frequency Division Multiple Access) method such as Multiple Access method, etc. May be used.
[0034]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment according to the present invention will be described with reference to the drawings.
In the following embodiment, the present invention is applied to an adaptive predistortion distortion compensating amplifier (APD distortion compensating amplifier). The APD distortion compensation amplifiers shown in the following embodiments are provided in a base station apparatus of a mobile communication system. The base station apparatus inputs a signal to be transmitted by radio and amplifies the input signal. To do. Then, the base station apparatus wirelessly transmits the signal amplified and compensated for distortion by the APD distortion compensation amplifier from the antenna to the mobile station apparatus serving as a communication partner.
[0035]
A first embodiment will be described.
FIG. 1 shows a configuration example of the APD distortion compensation amplifier of this example.
In the APD distortion compensation amplifier of this example, generally, in the configuration of the APD distortion compensation amplifier corresponding to the baseband of FIG. 2 as shown in FIG. 3, a variable attenuator 106 is added before the delay unit 107. The variable attenuator 106 can be controlled by the controller 114.
[0036]
An example of the operation performed by the APD distortion compensating amplifier of this example will be shown.
101 is a digital-analog converter (D / A converter) that converts an input digital signal into an analog signal, 102 is a direct modulator that performs direct modulation on the converted analog signal, 103 is a transmitter, and 104 is a transmitter. A mixer 105 is a coupler, and constitutes a baseband input unit.
[0037]
In the baseband input unit, an input signal is digital data, and an input signal that is a baseband signal of each carrier of the multicarrier signal is converted into an analog signal by the D / A conversion unit 101. Further, the converted analog signal is orthogonally modulated by the orthogonal modulation unit 102. The orthogonally modulated input signal is frequency-converted by the mixer 104 based on the carrier frequency output from the transmitter 103, and up-converted to a high frequency.
[0038]
In FIG. 1, a transmitter 103 and a mixer 104 are provided for each carrier of an input signal, and up-conversion is performed for each carrier. The outputs of the mixers 104 for each carrier are combined by a combiner 105 to become a multicarrier signal.
[0039]
The multicarrier signal input to the input terminal of the APD distortion compensation amplifier of this example is input to the variable attenuator 106 and the envelope detector 110.
The variable attenuator 106 attenuates the input signal with an attenuation amount controlled by the controller 114 described later, and outputs the attenuated signal to the delay unit 107.
The delay unit 107 delays the signal input from the variable attenuator 106 by a predetermined time and outputs the delayed signal to the predistortion circuit 108.
[0040]
The variable attenuator 115 of the predistortion circuit 108 attenuates the signal input from the delay unit 107 by an attenuation amount based on the correction data signal input from the variable attenuator table 117 described later, thereby adjusting the amplitude of the signal. The signal after adjustment is output to the phase shifter 116.
The phase shifter 116 of the predistortion circuit 108 changes the phase of the signal input from the variable attenuator 115 by a phase change amount (phase shift amount) based on a correction data signal input from a phase shifter table 118 described later. As a result, the phase of the signal is adjusted, and the signal after the phase adjustment is output to the amplifier 109.
[0041]
The amplifier 109 amplifies the signal input from the phase shifter 116 of the predistortion circuit 108 and outputs the amplified signal. The output signal is output as a transmission output from the output terminal of the APD distortion compensation amplifier of this example.
The envelope detector 110 detects the envelope of the input signal, and outputs the envelope information to the variable attenuator table 117 and the phase shifter table 118 which are correction tables stored in the memory 111.
[0042]
The variable attenuator table 117 stores envelope information and correction data related to amplitude adjustment by the variable attenuator 115 as a table, and a correction data signal corresponding to the envelope information input from the envelope detector 110. Is output to the variable attenuator 115.
The phase shifter table 118 stores envelope information and correction data related to phase adjustment by the phase shifter 116 as a table, and a correction data signal corresponding to the envelope information input from the envelope detector 110. Is output to the phase shifter 116.
[0043]
The sideband power detector 112 receives a part of the signal output from the amplifier 109, detects the power of the sideband signal that becomes leakage power to the adjacent channel in the transmission output from the input signal, and the detection result Is output to the integrator 113. Thus, in this example, control is performed by the controller 114 described later with the sideband signal as a reference.
[0044]
In this example, as the sideband power detector 112, for example, the distortion detector B described in Patent Document 1 described above is used, and an ACP component is detected as a sideband signal component. As the sideband signal, for example, various signals such as primary distortion and secondary distortion may be used.
[0045]
The integrator 113 integrates the detection result input from the sideband power detector 112 for a predetermined time and outputs the integration result to the controller 114. The integrator 113 conceptually has a function of increasing the area, and is particularly required in the CDMA system, for example.
The controller 114 stores the correction data stored in the variable attenuator table 117 stored in the memory 111 and the phase shifter table 118 stored in the memory 111 based on the integration value input from the integrator 113. The correction data is updated, and the variable attenuator 106 is controlled based on the integration value input from the integrator 113.
[0046]
Specifically, for example, the controller 114 stores the variable attenuator table 117 so that the integral value input from the integrator 113 is small, that is, the distortion component included in the transmission output is small. The contents and the stored contents of the phase shifter table 118 are updated.
For example, the controller 114 performs control so that the attenuation amount of the variable attenuator 106 increases when the integral value input from the integrator 113 exceeds a preset threshold value.
[0047]
As described above, in the APD distortion compensation amplifier of this example, the amplitude and phase of the signal input to the predistortion circuit 108 are adjusted by the correction data read from the correction tables 117 and 118 stored in the memory 111. The distortion generated by the amplifier 109 is canceled by the distortion (predistortion) generated by the simple adjustment.
[0048]
Further, in the APD distortion compensation amplifier of this example, when the distortion component remaining after the distortion compensation becomes larger than a predetermined level without the distortion generated by the amplifier 109 being canceled by the distortion compensation, the distortion compensation is performed. The controller 114 controls the variable attenuator 106 and attenuates the signal by the variable attenuator 106 so that the distortion component remaining after the predetermined level is lower than the predetermined level, whereby the output level from the APD distortion compensation amplifier is reduced. This will continue operation.
[0049]
Therefore, in the APD distortion compensation amplifier of this example, for example, when the integration value from the integrator 113 exceeds a predetermined level and the distortion cannot be corrected by the predistortion circuit 108, the controller 114 performs integration. The amount of attenuation of the variable attenuator 106 is increased until the integrated value from the integrator 113 is compared with the predetermined level until the integrated value from the integrator 113 becomes equal to or lower than the predetermined level. Thereby, in the APD distortion compensation amplifier of the present example, the operation of the predistortion distortion compensation amplifier can be continued without outputting a large distortion component that may have an adverse effect.
[0050]
As described above, in the APD distortion compensation amplifier of this example, even when a predetermined correction amount cannot be maintained in the correction for canceling the distortion generated in the amplifier 109, the signal before the predistortion is attenuated and remains after the distortion compensation. Operation can be continued by reducing the distortion component below a predetermined level.
[0051]
In this example, the amplifier 109 corresponds to an amplifier to be subjected to distortion compensation, and the distortion component magnitude detection means is configured by the function of the sideband power detector 112 and the function of the integrator 113. The function of the variable attenuator 106 and the function of the variable attenuator 106 constitute amplified signal level reduction control means. In this example, the integral value of the power level of the sideband signal is detected as the magnitude of the distortion component.
[0052]
In this example, the function of the predistortion circuit 108 including the variable attenuator 115 and the phase shifter 116, the function of the envelope detector 110, the variable attenuator table 117, and the phase shifter table 118 are stored. The function of the memory 111 constitutes predistortion means. In this example, the signal level detection means is configured by the function of the envelope detector 110, and the predistortion control mode storage means is configured by the function of the variable attenuator table 117 and the function of the phase shifter table 118. Yes. In this example, the predistortion control means is configured by the function of the controller 114.
[0053]
Here, the configuration of the amplification device and the like according to the present invention is not necessarily limited to the above-described configuration, and various configurations may be used. The present invention can also be provided as, for example, a method or method for executing processing according to the present invention, a program for realizing such a method or method, and the like.
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.
[0054]
In addition, as various kinds of processing performed in the amplifying apparatus according to the present invention, for example, control is performed by executing a control program stored in a ROM (Read Only Memory) in a hardware resource including a processor, a memory, and the like. For example, each functional unit for executing the processing may be configured as an independent hardware circuit.
The present invention can also be understood as a computer-readable recording medium such as a floppy (registered trademark) disk or a CD (Compact Disc) -ROM storing the control program, and the program (itself). The processing according to the present invention can be performed by inputting a program from a recording medium to a computer and causing the processor to execute the program.
[0055]
【The invention's effect】
As described above, according to the amplification device according to the present invention, when a signal is amplified by an amplifier and the distortion generated by the amplifier is compensated, the signal is generated by the amplifier included in the signal amplified by the amplifier after distortion compensation. When the magnitude of the distortion component is detected, and when the magnitude of the detected distortion component exceeds a predetermined threshold, control is performed so that the level of the amplified signal by the amplifier is reduced. Even when the magnitude of the distortion component included in the amplified signal after distortion compensation increases, the level of distortion included in the amplified signal after distortion compensation can be reduced, and the operation of the amplification device can be continued.
[Brief description of the drawings]
FIG. 1 shows an embodiment of the present invention.
FIG. 2 Basic configuration diagram of APD
Fig. 3 Baseband input diagram
[Explanation of symbols]
101, 301 ... D / A converter 102, 302 ... direct converter
106: First variable attenuator 108, 202: Predistortion circuit
109, 203 ... Amplifier 112, 206 ... Sideband detector
113, 207 ... integrator 111, 205 ... memory
110, 204 ... envelope detector 114, 208 ... controller

Claims (1)

A direct modulation means for performing digital orthogonal modulation on the input signal for each carrier and performing offset rotation processing on the digital orthogonal modulation signal for each carrier, and a combining means for combining the signals subjected to digital orthogonal modulation and offset rotation processing for each carrier When,
Digital delay means for digitally delaying the output from the coupling means for a fixed time;
Signal converting means for converting the digital delayed signal into an analog signal;
Up-conversion means for converting the signal converted into the analog signal into a radio frequency;
Power detection means for detecting a power value based on the output from the coupling means;
Amplifying means for amplifying the multicarrier signal;
Distributing means for distributing a portion of the output from said combining means;
For the multicarrier signal from the up-conversion means, distortion compensation that cancels the non-linear characteristics generated by the amplifying means by using the power value detected by the power detecting means and a part of the output from the distributing means. Distortion compensation means for providing,
An amplifying apparatus comprising an input signal suppression unit provided between the distortion compensation means and the distributor.

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