JP2000031869A - Device and method for transmission with pre-distorted distortion compensation function - Google Patents

Abstract

PROBLEM TO BE SOLVED: To perform an appropriate distortion compensation processing following finer operation environment change without enlarging the scale of the entire device. SOLUTION: The power value of base band signals I and Q amplified in an amplifier 117 is obtained in a power calculation part 105 and compensation data provided with the inverse characteristics of the amplifier 117 made to correspond to the power value are stored in respective tables 106-109 for a number corresponding to the optional state of the operation environment parameter of the amplifier 117. when the compensation data corresponding to the state are not present in the plural compensation data read from the table (106, for instance) corresponding to the power value, the plural compensation data roughly corresponding to the state are synthesized in a synthesis part 110, the synthesized compensation data are multiplied by the base band signals I and Q in a distortion compensation computation part 113 and the distortion compensation of the amplifier 117 is performed. Thus, the appropriate distortion compensation following the finer operation environment change is performed without increasing a circuit scale.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transmitting apparatus and method having a predistortion distortion compensation function applied to a mobile communication system using a digital modulation system.

[0002]

2. Description of the Related Art Hitherto, in a mobile communication system using a digital modulation system, a high-efficiency amplifier for a transmission system has been used in order to save power of a transmission device as a wireless terminal. When a high-efficiency amplifier is used, a large amount of nonlinear distortion is likely to occur. When such distortion occurs,
The transmission spectrum spreads, and has adverse effects such as interference with adjacent channels. Therefore, a function of performing pre-distortion distortion compensation is applied to the transmission device.

FIG. 11 is a block diagram showing a conventional transmitting apparatus with a pre-distortion distortion compensating function.

The transmitting apparatus shown in FIG. 11 includes a baseband section 1101 and a radio section 1102. The baseband unit 1101 includes an input terminal 1103 to which the Ich baseband signal II is input, an input terminal 1104 to which the Qch baseband signal Q is input, a power calculation unit 1105, first, second, third,. , N-th complex compensation data table 1106, 1107, 1108, 110
9, the selector 1110, and the selector control unit 1111
And an input terminal 1112 to which operating environment parameters such as a temperature, a power supply voltage, and an amplified signal frequency of the amplifier 1117 to be distortion-compensated are input, a distortion compensation operation unit 1113, and D / A converters 1114 and 1115. Have been.

However, it is assumed that the first to N-th complex compensation data tables 1106 to 1109 are stored together in one memory device or individually stored in one memory device.

The radio section 1102 includes a quadrature modulator 1116
, A transmission amplifier 1117 and an output terminal 1118 for outputting an RF signal. However, the RF signal output from the output terminal 1118 is
It may be expressed as 18.

[0007] The operation of the transmission apparatus with a predistortion distortion compensating function having such a configuration will be described. However, for simplicity, the distortion compensation target is the amplifier 1117, and the amplifier 11
It is assumed that distortion does not occur at other than 17.

FIG. 12A shows the gain / phase characteristics of the amplifier 1117 to be compensated for distortion, and FIG.
To N-th complex compensation data tables 1106 to 1109 show any one of the gain / phase characteristics of the plurality of complex compensation data, and FIG. 12 (c) shows the gain / phase characteristics of the entire transmission device.

The complex compensation data is obtained by decomposing a compensation vector, which is an inverse characteristic of the gain / phase characteristic of the amplifier 1117 shown in FIG. 12A, into an in-phase component and a quadrature component.

This complex compensation data is stored in each of the complex compensation data tables 1106 to 1109 in a number corresponding to an arbitrary state of the operating environment parameter of the amplifier 1117, and the complex compensation data for each of the complex compensation data tables 1106 to 1109 is stored. The data group (a plurality of complex compensation data) stores a transmission signal power value calculated by the power calculation unit 1105 from the baseband signals I and Q as an address.

Therefore, any one of the first to Nth complex compensation data tables 1106 to 1109 corresponding to the power value is selected and output to the selector 1110.

Incidentally, the characteristics of the amplifier 1117 change due to the fluctuation of its operating environment parameters. For this reason,
The selector control unit 1111 operates the selector 1110 according to the operating environment parameter input from the input terminal 1112.
Then, control is performed so that complex compensation data CI and CQ corresponding to the operation environment parameters are selected from the plurality of complex compensation data.

The selected complex compensation data CI, CQ
Is multiplied by the baseband signals I and Q in the distortion compensation operation unit 1113, converted into analog signals in the D / A converters 1114 and 1115, quadrature-modulated by the quadrature modulator 1116, and then amplified by the amplifier 1117. You.

In the distortion compensation calculation unit 1113, FIG.
By multiplying the baseband signals I and Q by the complex compensation data of (b), which is the inverse characteristic of the characteristic of the amplifier 1117 shown in (a), as shown in (c), the gain / phase characteristics of the entire transmission device can be improved. Keep constant regardless of transmission output power value, RF
Reduce the distortion at output 1118.

[0015]

However, in order to perform appropriate distortion compensation processing in various operating environments in the above-described conventional transmission device with pre-distortion distortion compensation function, the first to N-th complex compensation data tables 1106 are required. ~ 11
09, the number of memory devices required for table storage increases, and the size of the entire device increases accordingly.

If the first to N-th complex compensation data tables 1106 to 1109 do not store complex compensation data corresponding to operating environment parameters, appropriate distortion compensation cannot be performed.

An object of the present invention is to provide a transmitting apparatus with a pre-distortion distortion compensating function and a transmitting method capable of performing an appropriate distortion compensating process following a finer change in operating environment without increasing the scale of the entire apparatus. With the goal.

[0018]

Means for Solving the Problems The present invention has the following arrangement to solve the above-mentioned problems.

According to a first aspect of the present invention, there is provided a transmitting apparatus with a pre-distortion distortion compensating function, wherein a plurality of compensating data are combined in accordance with a state of an operating environment parameter of an amplifying means to be compensated for distortion, and the combined compensating data is used. And a function of performing distortion compensation.

With this configuration, it is possible to perform appropriate distortion compensation that follows a finer change in the operating environment without increasing the circuit scale of the transmission device.

According to a second aspect of the present invention, there is provided a transmitting apparatus with a pre-distortion distortion compensating function, wherein a power calculating means for obtaining a power value of a baseband signal of a transmission signal amplified by an amplifying means, Storage means for storing a number of compensation data having the inverse characteristic of the amplification means corresponding to an arbitrary state of the operating environment parameter of the amplification means; and a plurality of compensation data read from the storage means in accordance with the power value If the data does not include compensation data corresponding to the state, by combining means for combining a plurality of compensation data substantially corresponding to the state, and multiplying the baseband signal by the compensation data obtained by the combination. And a distortion compensation operation unit for performing distortion compensation of the amplification unit.

With this configuration, it is possible to perform appropriate distortion compensation that follows finer changes in the operating environment without increasing the circuit scale of the transmission device.

According to a third aspect of the present invention, in the transmission apparatus with a pre-distortion distortion compensating function, when there is no compensation data corresponding to the state of the operating environment parameter, An average processing means for calculating an average value of a plurality of compensation data roughly corresponding to the above-mentioned state and outputting the average value as compensation data to the distortion compensation calculating means is provided in the synthesizing means.

With this configuration, it is possible to perform appropriate distortion compensation that follows a finer change in the operating environment without increasing the circuit scale of the transmission device.

According to a fourth aspect of the present invention, there is provided a transmission apparatus with a predistortion distortion compensating function, wherein compensation data corresponding to the state of the operating environment parameter does not exist. The synthesis means includes interpolation processing means for interpolating a plurality of compensation data roughly corresponding to the state according to an interpolation program and outputting the compensation data obtained by the interpolation to the distortion compensation calculation means.

With this configuration, it is possible to perform appropriate distortion compensation that follows finer changes in the operating environment without increasing the circuit scale of the transmission device.

According to a fifth aspect of the present invention, there is provided a transmission apparatus with a pre-distortion distortion compensating function, wherein the compensating data corresponding to the state of the operating environment parameter does not exist. A plurality of compensation data roughly corresponding to the state are interpolated according to the interpolation program associated with the state among the plurality of interpolation programs, and the compensation data obtained by this interpolation is output to the distortion compensation calculation means. The interpolation processing means is provided in the synthesizing means.

According to this configuration, interpolation is performed by an appropriate interpolation program for interpolating a plurality of complex compensation data, and an appropriate distortion that follows a finer change in the operating environment without increasing the circuit scale of the transmission device. Compensation can be made.

According to a sixth aspect of the present invention, there is provided a transmission apparatus with a pre-distortion distortion compensating function, wherein the compensating data corresponding to the state of the operating environment parameter does not exist. Interpolate a plurality of compensation data roughly corresponding to the state according to an interpolation program generated according to the state,
Interpolation processing means for outputting compensation data obtained by this interpolation to distortion compensation calculation means is provided in the synthesis means.

With this configuration, interpolation is performed by an appropriate interpolation program for interpolating a plurality of complex compensation data, and an appropriate distortion that follows a finer change in the operating environment without increasing the circuit scale of the transmission device. Compensation can be made.

According to a seventh aspect of the present invention, there is provided a transmitting apparatus with a pre-distortion distortion compensating function, wherein the compensating data corresponding to the state of the operating environment parameter does not exist. Interpolation processing means for interpolating a plurality of compensation data roughly corresponding to the state according to an interpolation program generated according to the power value, and outputting compensation data obtained by the interpolation to the distortion compensation calculation means, to the synthesis means. A configuration was provided.

With this configuration, interpolation is performed by an appropriate interpolation program for interpolating a plurality of complex compensation data, and an appropriate distortion that follows a finer change in the operating environment without increasing the circuit scale of the transmission device. Compensation can be made.

According to a transmission apparatus with a pre-distortion distortion compensation function described in claim 8, in the transmission apparatus with a pre-distortion distortion compensation function according to any one of claims 4 to 7, the interpolation is performed by using a plurality of compensation data. Is weighted according to the state of the operating environment parameters, and then the average value is calculated.

With this configuration, it is possible to perform appropriate interpolation that follows a finer change in the operating environment.

According to a ninth aspect of the present invention, there is provided a base station apparatus including the transmission device with a predistortion distortion compensation function according to any one of the first to eighth aspects.

According to this configuration, the base station apparatus can obtain the operation and effect according to any one of the first to eighth aspects.

A mobile station device according to a tenth aspect is configured to include the transmission device with a predistortion distortion compensation function according to any one of the first to eighth aspects.

According to this configuration, the mobile station apparatus can obtain the operation and effect described in any one of the first to eighth aspects.

Further, a mobile communication system according to claim 11 has a configuration in which the transmission device with predistortion distortion compensation function according to any one of claims 1 to 8 is provided in a base station device and a mobile station device. did.

According to this configuration, the mobile communication system can obtain the operation and effect described in any one of the first to eighth aspects.

In the transmission method with a pre-distortion distortion compensating function, a plurality of compensation data are combined in accordance with the state of the operating environment parameter of the amplification means to be compensated for distortion. Is used to perform distortion compensation.

According to this method, it is possible to perform appropriate distortion compensation that follows finer changes in the operating environment without increasing the circuit scale of the transmission device.

According to a transmission method with a pre-distortion distortion compensating function according to a thirteenth aspect, a power value of a baseband signal amplified by an amplifying means is obtained, and the power value is associated with the obtained power value. Compensation data having an inverse characteristic is stored in a number corresponding to an arbitrary state of the operating environment parameter of the amplifying means, and the plurality of stored compensation data according to the power value includes compensation data corresponding to the state. If not, a plurality of compensation data roughly corresponding to the state are combined, and the compensation data obtained by the combination is multiplied by the baseband signal to perform distortion compensation of the amplifying unit.

According to this method, it is possible to perform appropriate distortion compensation that follows finer changes in the operating environment without increasing the circuit scale of the transmission device.

A transmission method with a pre-distortion distortion compensation function according to a fourteenth aspect of the present invention is the transmission method with a pre-distortion distortion compensation function according to the thirteenth aspect, wherein compensation data corresponding to the state of the operating environment parameter does not exist. An average value of a plurality of compensation data roughly corresponding to the state is obtained, and distortion compensation is performed using compensation data based on the average value.

According to this method, it is possible to perform appropriate distortion compensation following finer changes in the operating environment without increasing the circuit scale of the transmission device.

The transmission method with a pre-distortion distortion compensation function according to claim 15 is the transmission method with the pre-distortion distortion compensation function according to claim 13, wherein there is no compensation data corresponding to the state of the operating environment parameter. A plurality of compensation data roughly corresponding to the above state are interpolated according to an interpolation program, and distortion compensation is performed using compensation data obtained by the interpolation.

According to this method, it is possible to perform appropriate distortion compensation that follows finer changes in the operating environment without increasing the circuit scale of the transmission device.

A transmission method with a pre-distortion distortion compensation function according to a sixteenth aspect of the present invention is the transmission method with a pre-distortion distortion compensation function according to the thirteenth aspect, wherein compensation data corresponding to the state of the operating environment parameter does not exist. A plurality of compensation data roughly corresponding to the state are interpolated according to an interpolation program associated with the state among a plurality of interpolation programs, and distortion compensation is performed with compensation data obtained by this interpolation. .

According to this method, interpolation is performed by an appropriate interpolation program for interpolating a plurality of complex compensation data, and an appropriate distortion that follows a finer change in the operating environment without increasing the circuit scale of the transmission device. Compensation can be made.

The transmission method with pre-distortion distortion compensation function according to claim 17 is the transmission method with pre-distortion distortion compensation function according to claim 13, wherein the compensation data corresponding to the state of the operating environment parameter does not exist. A plurality of compensation data roughly corresponding to the state are interpolated according to an interpolation program generated according to the state, and distortion compensation is performed using compensation data obtained by the interpolation.

According to this method, interpolation is performed by an appropriate interpolation program for interpolating a plurality of complex compensation data, and an appropriate distortion that follows a finer change in the operating environment without increasing the circuit scale of the transmission device. Compensation can be made.

The transmission method with pre-distortion distortion compensation function according to claim 18 is the transmission method with pre-distortion distortion compensation function according to claim 13, wherein the compensation data corresponding to the state of the operating environment parameter does not exist. Interpolate a plurality of compensation data roughly corresponding to the state according to an interpolation program generated according to the power value,
Distortion compensation is performed using compensation data obtained by this interpolation.

According to this method, interpolation is performed by an appropriate interpolation program for interpolating a plurality of complex compensation data, and an appropriate distortion that follows a finer change in the operating environment without increasing the circuit scale of the transmission device. Compensation can be made.

[0055]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing an embodiment of a transmitting apparatus and a method for predistortion distortion compensation according to the present invention.

(Embodiment 1) FIG. 1 is a block diagram showing a transmission apparatus with a pre-distortion distortion compensation function according to Embodiment 1 of the present invention.

A feature of the transmitting apparatus with a pre-distortion distortion compensating function (hereinafter referred to as a transmitting apparatus) of the first embodiment is that there is no complex compensation data corresponding to the state of the operating environment parameter of the amplifier 117 to be subjected to distortion compensation. If
The point is that a plurality of complex compensation data roughly corresponding to the state are synthesized, and the non-linear distortion of the amplifier 117 is compensated by the synthesized complex compensation data.

The transmitting apparatus according to the first embodiment shown in FIG. 1 includes a baseband section 101 and a radio section 102.

The baseband unit 101 has an input terminal 103 to which an Ich baseband signal I is input, an input terminal 104 to which a Qch baseband signal Q is input, a power calculation unit 105, and complex compensation data tables 106 and 10.
7, 108, 109, the combining unit 110, and the combining control unit 1.
11, the temperature of the amplifier 117 to be compensated for distortion, the power supply voltage,
An input terminal 112 to which an operating environment parameter such as an amplified signal frequency is input, a distortion compensation operation unit 113, and D / A converters 114 and 115 are provided.

However, it is assumed that the first to N-th complex compensation data tables 106 to 109 are stored together in one memory device or individually stored in one memory device.

The radio section 102 includes a quadrature modulator 116, a transmission amplifier 117, and an output terminal 118 for outputting an RF signal. However, output terminal 11
The RF signal output from 8 may be referred to as an RF output 118 in some cases.

The operation of the transmitting apparatus having such a configuration will be described. However, for simplicity, the distortion compensation target is the amplifier 117.
It is assumed that no distortion occurs except for the amplifier 117.

The gain of the amplifier 117 to be compensated for distortion
Phase characteristics, first to N-th complex compensation data tables 106 to
The gain / phase characteristics of a plurality of complex compensation data stored in each of the 109 and the gain / phase characteristics of the entire transmission apparatus correspond to the characteristics shown in FIGS. I have.

That is, the complex compensation data is obtained by decomposing a compensation vector, which is an inverse characteristic of the gain / phase characteristic of the amplifier 117 shown in FIG. 12A, into an in-phase component and a quadrature component. The complex compensation data is stored in each of the complex compensation data tables 106 to 109 in a number corresponding to an arbitrary state of the operating environment parameter of the amplifier 117, and a complex compensation data group (for each complex compensation data table 106 to 109) The plurality of complex compensation data) are baseband signals I and Q
And the transmission signal power value calculated by the power calculation unit 105 is stored as an address.

Therefore, any one of the first to N-th complex compensation data tables 106 to 109 corresponding to the power value is selected and output to the synthesizing section 110.

The plurality of complex compensation data output to the synthesizing unit 110 are output to the synthesizing unit 1 under the control of the synthesizing control unit 111.
The signals are combined at 10 and output to the distortion compensation operation unit 113. Hereinafter, the synthesis control will be described.

The combining control section 111 controls the combining section 110 to combine a plurality of complex compensation data in accordance with the state of the operating environment parameter input from the input terminal 112. An example of this combination control will be described with reference to FIG.

Here, for the sake of simplicity, the operating environment parameter is X, the state is X1, X2, X3,..., XN, and the corresponding complex compensation data is D1, D2, DN.
3, ..., DN.

For example, when the state is X1, the compensating data D1 corresponding to X1 is selected by the synthesizing section 110, and the selected complex compensating data D1 is synthesized so as to be output to the distortion compensation calculating section 113. It is controlled by the control unit 111.

When the state is intermediate between X1 and X2, the complex compensation data D1 corresponding to X1 and the complex compensation data D2 corresponding to X2 are combined by the combining unit 110.
The combined control unit 111 controls the combined complex compensation data CI and CQ so as to be output to the distortion compensation calculation unit 113.

When the complex compensation data CI and CQ are output as described above, the distortion compensation calculator 113 outputs the complex compensation data CI and CQ as shown in FIG.
By multiplying the baseband signals I and Q by the complex compensation data CI and CQ of (b), which is the inverse characteristic of the characteristic of the amplifier 117 shown in FIG. The output power is kept constant irrespective of the transmission output power value, and distortion at the RF output 118 is reduced.

That is, after the complex compensation data CI and CQ are multiplied by the baseband signals I and Q in the distortion compensation operation unit 113, they are converted into analog signals by the D / A converters 114 and 115, and are converted by the quadrature modulator 116. After the quadrature modulation, the signal is amplified by the amplifier 117.

As described above, according to the first embodiment, when there is no complex compensation data corresponding to the state of the operating environment parameter of amplifier 117 to be compensated for distortion, a plurality of complex compensation data , And the distortion of the amplifier 117 is compensated by the combined complex compensation data.
Appropriate distortion compensation that follows finer changes in the operating environment can be performed without increasing the number of bits 06 to 109, that is, without increasing the circuit scale of the transmission device.

(Embodiment 2) FIG.3 is a block diagram showing a transmitting apparatus with a pre-distortion distortion compensating function according to Embodiment 2 of the present invention. However, in the second embodiment shown in FIG. 3, portions corresponding to the respective portions of the first embodiment in FIG. 1 are denoted by the same reference numerals, and description thereof will be omitted.

The transmitting apparatus according to the second embodiment is characterized in that the averaging section 301 is provided in the synthesizing section 110, and there is no complex compensation data corresponding to the state of the operating environment parameter of the amplifier 117 to be compensated for distortion. The averaging unit 301
An average value of a plurality of complex compensation data roughly corresponding to the state is obtained, and the complex compensation data C which is the obtained average value is obtained.
The point is that the pre-distortion distortion of the amplifier 117 is compensated by I and CQ.

That is, the synthesis control unit 302 operates at the input terminal 11
2 according to the state of the operating environment parameter input from
The average processing unit 301 performs control so as to obtain an average value of a plurality of complex compensation data. An example of the control for obtaining the average value will be described with reference to FIG.

Here, for the sake of simplicity, the operating environment parameters are X, their states are X1, X2, X3,..., XN, and the corresponding complex compensation data tables are D1 and DN.
2, D3, ..., DN.

For example, when the state is X1, the complex compensation data D1 corresponding to X1 is selected by the synthesizing unit 110, and the selected complex compensation data D1 is synthesized so as to be output to the distortion compensation calculating unit 113. The control is performed by the control unit 302.

When the state is between X1 and X2, the average value of complex compensation data D1 corresponding to X1 and complex compensation data D2 corresponding to X2 is calculated by averaging section 301.
The complex control unit 302 controls so that the complex compensation data CI and CQ, which are the calculated average values, are output to the distortion compensation calculation unit 113.

The baseband signals I and Q are multiplied by the complex compensation data CI and CQ obtained by the averaging control in the distortion compensation calculation section 113 to thereby provide an amplifier 117.
Is performed.

As described above, according to the second embodiment, when there is no complex compensation data corresponding to the state of the operating environment parameter of the amplifier 117 to be compensated for distortion, the averaging section 301 roughly corresponds to the state. The average value of a plurality of complex compensation data to be obtained is calculated, and the average value is used as the complex compensation data CI and CQ to compensate for the distortion of the amplifier 117.
It is possible to perform appropriate distortion compensation that follows finer changes in the operating environment without increasing the number of Nth complex compensation data tables 106 to 109, that is, without increasing the circuit scale of the transmission device.

(Embodiment 3) FIG. 5 is a block diagram showing a transmission apparatus with a pre-distortion distortion compensation function according to Embodiment 3 of the present invention. However, in the third embodiment shown in FIG. 5, portions corresponding to the respective portions of the first embodiment in FIG. 1 are denoted by the same reference numerals, and description thereof will be omitted.

The transmitting apparatus according to the third embodiment is characterized in that an interpolating section 501 is provided in the synthesizing section 110, and an interpolation program 502 stored in a memory device (not shown) is provided. When there is no complex compensation data corresponding to the state of the operation environment parameter of, the interpolation processing unit 501 interpolates a plurality of complex compensation data substantially corresponding to the state according to the interpolation program 502, and obtains the result by this interpolation. Amplifier 11 with complex compensation data CI and CQ
7 is to compensate for the pre-distortion distortion.

That is, the synthesis control unit 503 is connected to the input terminal 11
2 according to the state of the operating environment parameter input from
The interpolation processing unit 501 controls so as to interpolate a plurality of complex compensation data according to the interpolation program 502. An example of this interpolation control will be described with reference to FIG.

Here, for simplicity, the operating environment parameters are X, their states are X1, X2, X3,..., XN, and the corresponding complex compensation data tables are D1, D
2, D3, ..., DN.

For example, when the state is X1, the complex compensation data D1 corresponding to X1 is selected by the synthesizing section 110, and the selected complex compensation data D1 is synthesized so as to be output to the distortion compensation calculating section 113. Control is performed by the control unit 503.

When the state is between X1 and X2, the complex compensation data D1 corresponding to X1 and the complex compensation data D2 corresponding to X2 are weighted in accordance with the interpolation program 502 to calculate the average. Linear interpolation is performed, and the synthesis control unit 503 controls the complex compensation data CI and CQ obtained by the interpolation so as to be output to the distortion compensation calculation unit 113.

The distortion compensation calculator 113 multiplies the baseband signals I and Q by the complex compensation data CI and CQ obtained by such interpolation control, thereby obtaining an amplifier 117.
Is performed.

As described above, according to the third embodiment, when there is no complex compensation data corresponding to the state of the operating environment parameter of the amplifier 117 to be subjected to distortion compensation, the interpolation processing unit 501 roughly corresponds to the state. Are interpolated according to the interpolation program 502, and the complex compensation data CI and CQ obtained by the interpolation are used as an amplifier 117.
, The number of the first to N-th complex compensation data tables 106 to 109 was increased, that is, without increasing the circuit scale of the transmission device, and a finer change in the operating environment was followed. Appropriate distortion compensation can be performed.

(Embodiment 4) FIG. 7 is a block diagram showing a transmitting apparatus with a pre-distortion distortion compensating function according to Embodiment 4 of the present invention. However, in the fourth embodiment shown in FIG. 7, portions corresponding to the respective portions of the first embodiment in FIG. 1 are denoted by the same reference numerals, and description thereof will be omitted.

The transmitting apparatus according to the fourth embodiment is characterized in that the combining section 110 is provided with an interpolation processing section 701 and the first to M-th interpolation programs 70 stored in a memory device (not shown).
2 to 704, and when there is no complex compensation data corresponding to the state of the operating environment parameter of the amplifier 117 that is the distortion compensation target, the interpolation processing unit 701 converts a plurality of complex compensation data roughly corresponding to the state into Interpolate according to the interpolation program (eg, 702) associated with the state,
The point is that the nonlinear distortion of the amplifier 117 is compensated for by the complex compensation data CI and CQ obtained by this interpolation.

That is, the synthesis control unit 705 is connected to the input terminal 11
2 according to the state of the operating environment parameter input from
The interpolation processing unit 701 controls to interpolate the plurality of complex compensation data according to the interpolation program 702 associated with the state. An example of this interpolation control will be described with reference to FIG.

Here, for the sake of simplicity, the operating environment parameters are X, their states are X1, X2, X3,..., XN, and the corresponding complex compensation data tables are D1 and DN.
2, D3, ..., DN.

For example, when the state is X1, the complex compensation data D1 corresponding to X1 is selected by the synthesizing unit 110, and the selected complex compensation data D1 is synthesized so as to be output to the distortion compensation calculating unit 113. Control is performed by the control unit 705.

When the state is between X1 and X2, the complex compensation data D1 corresponding to X1 and the complex compensation data D2 corresponding to X2 correspond to the interpolation program P1 associated with the state. When the state is between X2 and X3, the complex compensation data D2 corresponding to X2 and the complex compensation data D3 corresponding to X3 correspond to the state. Linear interpolation is performed to obtain an average by performing weighting according to the attached interpolation program P2, and the synthesis control unit 705 outputs the complex compensation data CI and CQ obtained by the interpolation to the distortion compensation calculation unit 113. Control.

The distortion compensation calculator 113 multiplies the baseband signals I and Q by the complex compensation data CI and CQ obtained by the interpolation control, thereby obtaining an amplifier 117.
Is performed.

As described above, according to the fourth embodiment, when there is no complex compensation data corresponding to the state of the operating environment parameter of amplifier 117 to be compensated for distortion, interpolation processing section 701 roughly corresponds to that state. Are interpolated according to the interpolation program corresponding to the state, and the complex compensation data C obtained by the interpolation is interpolated.
The distortion of the amplifier 117 is compensated by I and CQ.

Thus, the interpolation is performed by an appropriate interpolation program for interpolating a plurality of complex compensation data. Also, the first to N-th complex compensation data tables 1
Appropriate distortion compensation that follows finer changes in the operating environment can be performed without increasing the number of bits 06 to 109, that is, without increasing the circuit scale of the transmission device.

(Embodiment 5) FIG. 9 is a block diagram showing a transmission apparatus with a pre-distortion distortion compensation function according to Embodiment 5 of the present invention. However, in the fifth embodiment shown in FIG. 9, parts corresponding to the respective parts of the first embodiment in FIG. 1 are denoted by the same reference numerals, and description thereof will be omitted.

The transmitting apparatus according to the fifth embodiment is characterized in that an interpolation processing section 901 is provided in the synthesizing section 110, and an interpolation program 902 is illustrated according to the state of the operating environment parameters of the amplifier 117 to be subjected to distortion compensation. If the complex control data corresponding to the state of the operating environment parameter does not exist, the synthesis control unit 903 generates the interpolation program 9 according to the state.
In accordance with 02, the interpolation processing unit 901 interpolates a plurality of complex compensation data roughly corresponding to the state, and compensates for the nonlinear distortion of the amplifier 117 with the complex compensation data CI and CQ obtained by the interpolation.

That is, the synthesis control unit 903 is connected to the input terminal 11
An interpolation program 902 is generated in accordance with the state of the operating environment parameters input from Step 2, and the interpolation processing unit 901 is controlled to interpolate a plurality of complex compensation data in accordance with the generated interpolation program 902. The complex compensation data CI and CQ obtained by this interpolation control are output to the distortion compensation operation unit 1
The distortion compensation of the amplifier 117 is performed by multiplying the baseband signals I and Q by 13.

As described above, according to the fifth embodiment, when there is no complex compensation data corresponding to the state of the operating environment parameter, the synthesis control unit 903 performs interpolation according to the interpolation program 902 generated according to the state. Processing unit 901
Interpolates a plurality of complex compensation data roughly corresponding to the state, and obtains the complex compensation data CI and CQ obtained by the interpolation.
To compensate for the nonlinear distortion of the amplifier 117.

As a result, interpolation is performed by an appropriate interpolation program for interpolating a plurality of complex compensation data. Also, the first to N-th complex compensation data tables 1
Appropriate distortion compensation that follows finer changes in the operating environment can be performed without increasing the number of bits 06 to 109, that is, without increasing the circuit scale of the transmission device.

(Embodiment 6) FIG.10 is a block diagram showing a transmitting apparatus with a pre-distortion distortion compensating function according to Embodiment 6 of the present invention. However, in the sixth embodiment shown in FIG. 10, portions corresponding to the respective portions of the third embodiment in FIG. 5 are denoted by the same reference numerals, and description thereof will be omitted.

A feature of the transmitting apparatus according to the sixth embodiment is that the interpolation processing section 1001 is provided in the synthesizing section 110, and the power calculation section 105 calculates when the complex compensation data corresponding to the state of the operating environment parameter does not exist. The interpolation processing unit 10 according to the interpolation program 1002 generated according to the power value
01 interpolates a plurality of complex compensation data roughly corresponding to the state, and obtains the complex compensation data C obtained by this interpolation.
The point is that the nonlinear distortion of the amplifier 117 is compensated by I and CQ.

As described above, according to the sixth embodiment, when there is no complex compensation data corresponding to the state of the operating environment parameter, a plurality of complex compensation data corresponding to the power value and roughly corresponding to the state are obtained. An interpolation program 1002 for interpolation is generated.
, A plurality of complex compensation data are interpolated, and the nonlinear distortion of the amplifier 117 is compensated by the complex compensation data CI and CQ obtained by the interpolation.

As a result, the interpolation is performed by an appropriate interpolation program for interpolating a plurality of complex compensation data. Also, the first to N-th complex compensation data tables 1
Appropriate distortion compensation that follows finer changes in the operating environment can be performed without increasing the number of bits 06 to 109, that is, without increasing the circuit scale of the transmission device.

[0108]

As is apparent from the above description, according to the present invention, it is possible to increase the circuit size of the transmitting device without increasing the circuit size.
Appropriate distortion compensation that follows finer changes in the operating environment can be performed.

[Brief description of the drawings]

FIG. 1 is a block diagram of a transmission device with a pre-distortion distortion compensation function according to Embodiment 1 of the present invention.

FIG. 2 is an explanatory diagram of a synthesizing process in the transmitting apparatus with a pre-distortion distortion compensation function according to the first embodiment.

FIG. 3 is a block diagram of a transmission device with a pre-distortion distortion compensation function according to Embodiment 2 of the present invention.

FIG. 4 is an explanatory diagram of an averaging process in the transmitting apparatus with a pre-distortion distortion compensation function according to the second embodiment.

FIG. 5 is a block diagram of a transmission device with a pre-distortion distortion compensation function according to Embodiment 3 of the present invention.

FIG. 6 is an explanatory diagram of an interpolation process in a transmission device with a pre-distortion distortion compensation function according to the third embodiment.

FIG. 7 is a block diagram of a transmission device with a pre-distortion distortion compensation function according to Embodiment 4 of the present invention.

FIG. 8 is an explanatory diagram of an interpolation process in the transmission device with a pre-distortion distortion compensation function according to the fourth embodiment.

FIG. 9 is a block diagram of a transmission device with a pre-distortion distortion compensation function according to Embodiment 5 of the present invention.

FIG. 10 is a block diagram of a transmitting apparatus with a pre-distortion distortion compensation function according to Embodiment 6 of the present invention.

FIG. 11 is a block diagram of a conventional transmission device with a pre-distortion distortion compensation function.

FIG. 12A is a diagram illustrating gain / phase characteristics of an amplifier in the transmission device with predistortion distortion compensation function. FIG. 12B is a diagram illustrating gain / phase characteristics of a distortion compensation calculation unit in the transmission device with predistortion distortion compensation function. Gain-phase characteristic diagram of the entire transmitter with pre-distortion distortion compensation function

[Explanation of symbols]

105 Power calculation unit 106, 107, 108, 109 Complex compensation data table 110 Synthesis unit 301 Average processing unit 501, 701, 901, 1001 Interpolation processing unit 502, 702, 703, 704, 902, 1002
Interpolation program 111, 302, 503, 705, 903, 1003 Synthesis control unit

Claims (18)

[Claims] 1. A function of combining a plurality of compensation data in accordance with the state of an operating environment parameter of an amplification unit to be subjected to distortion compensation, and performing distortion compensation using the combined compensation data. A transmission device with a pre-distortion distortion compensation function. 2. A power calculating means for calculating a power value of a baseband signal of a transmission signal amplified by an amplifying means, and a compensating data associated with the power value and having an inverse characteristic of the amplifying means. Storage means for storing a number corresponding to an arbitrary state of the operating environment parameter, and a plurality of compensation data read from the storage means according to the power value, if there is no compensation data corresponding to the state,
Combining means for combining a plurality of compensation data roughly corresponding to the state, and distortion compensation calculating means for performing distortion compensation of the amplifying means by multiplying the baseband signal by the compensation data obtained by the combining, A transmission device with a pre-distortion distortion compensation function, comprising: 3. When there is no compensation data corresponding to the state of the operating environment parameter, an average value of a plurality of compensation data roughly corresponding to the state is obtained, and this average value is output to the distortion compensation calculating means as compensation data. 3. The transmitting apparatus with a pre-distortion distortion compensation function according to claim 2, wherein the averaging means is provided in the combining means. 4. When there is no compensation data corresponding to the state of the operating environment parameter, a plurality of compensation data roughly corresponding to the state are interpolated according to an interpolation program, and the compensation data obtained by the interpolation is subjected to distortion compensation. 3. The transmitting apparatus with a pre-distortion distortion compensation function according to claim 2, wherein the combining means includes an interpolation processing means for outputting to the calculating means. 5. When there is no compensation data corresponding to the state of the operating environment parameter, a plurality of compensation data substantially corresponding to the state are determined according to the interpolation program associated with the state among the plurality of interpolation programs. To interpolate,
3. A transmitting apparatus with a pre-distortion distortion compensation function according to claim 2, wherein said synthesizing means includes interpolation processing means for outputting compensation data obtained by said interpolation to said distortion compensation calculating means. 6. When there is no compensation data corresponding to the state of the operating environment parameter, a plurality of compensation data substantially corresponding to the state are interpolated according to an interpolation program generated according to the state. 3. The transmitting apparatus with a pre-distortion distortion compensation function according to claim 2, wherein the combining means includes interpolation processing means for outputting the obtained compensation data to the distortion compensation calculating means. 7. When there is no compensation data corresponding to the state of the operating environment parameter, a plurality of compensation data substantially corresponding to the state are interpolated according to an interpolation program generated according to the power value. 3. The transmitting apparatus with a pre-distortion distortion compensation function according to claim 2, wherein the combining means includes interpolation processing means for outputting the obtained compensation data to the distortion compensation calculating means. 8. The method according to claim 4, wherein the interpolation is a calculation for obtaining an average value after weighting a plurality of compensation data in accordance with the state of the operation environment parameter. The transmission device with a pre-distortion distortion compensation function according to the above. 9. A base station apparatus comprising: the transmission apparatus with a predistortion distortion compensation function according to claim 1. Description: 10. A mobile station device comprising the transmission device with a pre-distortion distortion compensation function according to claim 1. Description: 11. A mobile communication system comprising: a base station device and a mobile station device each including the transmission device with predistortion distortion compensation function according to any one of claims 1 to 8. 12. A plurality of compensation data are synthesized according to a state of an operation environment parameter of an amplification unit to be compensated for distortion,
A transmission method with a pre-distortion distortion compensation function, wherein distortion compensation is performed using the combined compensation data. 13. A power value of a baseband signal of a transmission signal to be amplified by an amplifying means, and compensating data having an inverse characteristic of the amplifying means and associated with the obtained power value, When a number corresponding to an arbitrary state of the operating environment parameter is stored, and the stored plurality of compensation data according to the power value does not include compensation data corresponding to the state, a plurality of the states roughly corresponding to the state are stored. A transmission method with a pre-distortion distortion compensation function, comprising combining compensation data and multiplying the baseband signal by the compensation data obtained by the combination to compensate for distortion of the amplifying means. 14. When there is no compensation data corresponding to the state of the operating environment parameter, an average value of a plurality of compensation data roughly corresponding to the state is obtained, and distortion compensation is performed using the compensation data based on the average value. 14. The transmission method with a pre-distortion distortion compensation function according to claim 13. 15. When there is no compensation data corresponding to the state of the operating environment parameter, a plurality of compensation data roughly corresponding to the state are interpolated according to an interpolation program, and distortion compensation is performed using compensation data obtained by the interpolation. 14. The transmission method with a pre-distortion distortion compensation function according to claim 13, wherein: 16. When there is no compensation data corresponding to the state of the operating environment parameter, a plurality of compensation data substantially corresponding to the state are determined according to the interpolation program associated with the state among the plurality of interpolation programs. 14. The transmission method with a pre-distortion distortion compensation function according to claim 13, wherein the distortion is compensated using the compensation data obtained by the interpolation. 17. When there is no compensation data corresponding to the state of the operating environment parameter, a plurality of compensation data roughly corresponding to the state are interpolated according to an interpolation program generated according to the state. 14. The transmission method with a pre-distortion distortion compensation function according to claim 13, wherein distortion compensation is performed using the obtained compensation data. 18. When there is no compensation data corresponding to the state of the operating environment parameter, a plurality of compensation data roughly corresponding to the state are interpolated according to an interpolation program generated according to the power value. 14. The transmission method with a pre-distortion distortion compensation function according to claim 13, wherein distortion compensation is performed using the obtained compensation data.