JP2001274851A - Transmission signal processor, base station, mobile station and digital radio communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a transmission signal processor capable of shortening a time needed to compensate for the waveform distortion of a transmission signal and also making a radio transmitter-receiver small in size. SOLUTION: This transmission signal processor 206 is provided with a transmitter 230 processing the transmission signal, a temperature measuring part 142 measuring the temperature of the transmitter 230, and a distortion compensating part 260 compensating for the distortion of the transmission signal by a predistortion method by using a compensation value for compensating for the waveform distortion of the transmission signal preliminarily stored in a compensation value table 268 on the basis of a temperature measured by the part 142.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a transmission signal processing device, a base station, a mobile station, and a digital radio communication system. In particular, the present invention relates to a transmission signal processing device, a base station, a mobile station, and a digital wireless communication system for transmitting a narrowband signal in frequency division multiple access digital wireless communication.

[0002]

2. Description of the Related Art FIG. 1 shows a radio communication transmitting / receiving apparatus 10 used for conventional frequency division multiple access digital radio communication. The conventional wireless communication transmitting / receiving device 10 includes an antenna 12, a transmitting / receiving unit 14, and a baseband processing unit 16. The transmission / reception unit 14 includes a reception unit 20, a transmission unit 40, a feedback unit 60 for adjusting a transmission signal, a common unit 22, an analog / digital conversion unit 36, and a digital / analog conversion unit 4.
2 Further, the baseband processing unit 16 includes a distortion compensation unit 80, a modulation unit 82, a bandpass filter 100, a quadrature detection unit 102, a synchronization unit 104, and a decoding unit 106.

Next, the operation of the receiving system of the conventional radio communication transmitting / receiving apparatus 10 will be described. The antenna 12 receives the analog reception signal and outputs the signal to the common unit 22. Common part 22
Outputs the analog reception signal to the transmission unit 40 so as not to interact with other signals. In the transmitting unit 40, the amplifying unit 24, the band filter 26, the frequency converting unit 28, the band filter 30, the frequency converting unit 32, and the low-pass filter 34
Adjusts the passing analog reception signal and outputs it to the analog / digital conversion unit 36. The analog / digital conversion unit 36 converts the analog reception signal into a corresponding digital reception signal and outputs the digital reception signal to the baseband processing unit 16. In the baseband processing unit 16, the bandpass filter 1
00, quadrature detector 102, synchronizer 104, and decoder 1
06 adjusts the passing digital reception signal and outputs it to another configuration (not shown).

Next, the operation of the transmission system of the conventional radio communication transmitting / receiving apparatus 10 will be described. The analog transmission signal output from the transmission unit 40 is demultiplexed, and a part thereof is input to the transmission signal adjustment feedback unit 60. Feedback section for transmission signal adjustment 60
In, the level adjustment unit 62, the frequency conversion unit 64, the bandpass filter 66, the amplification unit 68, and the quadrature detection unit 70 adjust the passing analog transmission signal, and output the analog transmission signal to the analog / digital conversion unit 72 as an analog feedback signal. The analog-to-digital converter 72 converts the analog feedback signal into
The signal is converted into a corresponding digital feedback signal and output to an error calculator 88 and a coefficient update unit 92 provided in the distortion compensator 80.

[0005] The digitally modulated signal modulated by the modulation section 82 is input to a predistortion section 84, a power calculation section 86 and an error calculation section 88. Power calculator 8
6 calculates the signal power based on the digitally modulated signal,
Output to the coefficient table 90. The coefficient table 90 adjusts a coefficient for compensating waveform distortion corresponding to signal power.

The error calculator 88 calculates a signal error, which is the difference between the input digital modulation signal and the digital feedback signal, and outputs the signal error to the coefficient update unit 92. The coefficient updating unit 92 calculates a coefficient for compensating for waveform distortion based on the signal error and the digital feedback signal. Further, the coefficient updating unit 92 updates the coefficient for compensating for the waveform distortion stored in the coefficient table 90 by outputting the coefficient for compensating for the waveform distortion to the coefficient table 90.

[0007] The coefficient table 90 has coefficients updated by the coefficient updating unit 92. However, in practice, when the analog transmission signal is subjected to analog processing in the transmission unit 40, waveform distortion occurs in the analog transmission signal. Therefore, the coefficient updating unit 92 needs to update the coefficient for compensating for the waveform distortion.

The coefficient table 90 outputs coefficients for compensating for waveform distortion corresponding to signal power to the pre-distortion section 84. The pre-distortion unit 84 adjusts the digital modulation signal input from the modulation unit 82 based on a coefficient for compensating waveform distortion. Further, the pre-distortion unit 92 outputs a digital compensation signal, which is a compensated digital modulation signal, to the digital / analog conversion unit 42.

A digital / analog conversion unit 42 converts the digital compensation signal into a corresponding analog compensation signal,
Output to the transmission unit 40. In the transmission unit 40, the low-pass filter 44, the quadrature modulation unit 46, the frequency conversion unit 48, the band-pass filter 50, the amplification unit 52, the band-pass filter 54, the power amplification unit 56, and the low-pass filter 58 adjust the passing analog compensation signal. Then, an analog transmission signal is output to the common unit 22. The common unit 22 converts the analog transmission signal into the antenna 208
And send it to

[0010]

In the transmission system of the conventional radio communication transmitting and receiving apparatus 10 shown in FIG. 1, a transmission signal adjusting feedback section 60 is provided to compensate for the waveform distortion of the transmission signal.
Are provided to form a closed circuit. In this closed circuit, since the closed loop processing is performed until the error between the digital modulation signal and the digital feedback signal becomes equal to or less than a predetermined value, it takes a long time to converge the analog transmission signal.

[0011] At present, development for reducing the size and weight of portable terminals is being actively pursued. Since the conventional wireless communication transmitting and receiving apparatus 10 has the transmission signal adjusting feedback section 60 for compensating for the waveform distortion of the transmission signal, the transmitting and receiving section 14
However, it is difficult to reduce the circuit scale.

Accordingly, an object of the present invention is to provide a transmission signal processing device, a base station, a mobile station, and a digital radio communication system that can solve the above-mentioned problems. This object is achieved by a combination of features described in the independent claims. The dependent claims define further advantageous embodiments of the present invention.

[0013]

According to a first aspect of the present invention, there is provided a transmission signal processing apparatus used in a frequency division multiple access type digital wireless communication, wherein a digital signal indicating data content is converted to an analog signal. A digital-to-analog conversion unit that converts the signal into a signal, an analog processing unit that performs analog processing on the analog signal output from the digital-to-analog conversion unit, a temperature measurement unit that measures the temperature of the analog processing unit, and a temperature measurement unit that measures the temperature. A distortion compensator for adjusting a digital signal output to the digital-to-analog converter using a compensation value for compensating for waveform distortion of the analog signal processed by the analog processor corresponding to the temperature. And a transmission signal processing device characterized by the following.

Further, the distortion compensating section may have a compensation value table in which compensation values corresponding to the temperature of the analog processing section are stored in advance. The analog processing section has a power amplifying section, and the temperature measuring section has a power measuring section. The temperature of the amplifier may be measured, and the distortion compensator may have a compensation value table in which compensation values corresponding to the temperature of the power amplifier are stored in advance.

According to a second aspect of the present invention, there is provided a mobile station used for frequency division multiple access digital radio communication, wherein a digital-to-analog conversion for converting a digital signal indicating data content into an analog signal. Department and
An analog processing unit that performs analog processing on the analog signal output from the digital-to-analog conversion unit, a temperature measurement unit that measures the temperature of the analog processing unit, and an analog processing unit that corresponds to the temperature measured by the temperature measurement unit And a distortion compensator for adjusting a digital signal output to the digital-to-analog converter using a compensation value for compensating for the waveform distortion of the analog signal.

According to a third aspect of the present invention, there is provided a base station used for frequency division multiple access digital radio communication, wherein a digital-to-analog conversion for converting a digital signal indicating data content into an analog signal. Department and
An analog processing unit that performs analog processing on the analog signal output from the digital-to-analog conversion unit, a temperature measurement unit that measures the temperature of the analog processing unit, and an analog processing unit that corresponds to the temperature measured by the temperature measurement unit And a distortion compensator for adjusting a digital signal output to the digital-to-analog converter using a compensation value for compensating for the waveform distortion of the analog signal.

According to a fourth aspect of the present invention, there is provided a digital radio communication system using a frequency division multiple access system, comprising: a digital / analog converter for converting a digital signal indicating data content into an analog signal; An analog processing unit that performs analog processing on an analog signal output from the digital / analog conversion unit, a temperature measurement unit that measures the temperature of the analog processing unit, and an analog processing unit that corresponds to the temperature measured by the temperature measurement unit. A mobile station having a distortion compensator for adjusting a digital signal output to a digital-to-analog converter using a compensation value for compensating for waveform distortion of an analog signal to be processed; A digital wireless communication system, comprising: a base station that receives a signal.

The above summary of the present invention does not enumerate all of the necessary features of the present invention, and sub-combinations of these features may also constitute the present invention.

[0019]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described through embodiments of the present invention. However, the following embodiments do not limit the claimed invention and have the features described in the embodiments. Not all combinations are essential to the solution of the invention.

FIG. 2 shows a digital wireless communication system 110 according to an embodiment of the present invention. The digital wireless communication system 110 includes a plurality of mobile stations 150 and base stations 13.
0 and a control station 120. The control station 120 controls the plurality of base stations 130. Base station 130 and control station 12
0 is connected by a wired transmission path. Base station 13
A wireless channel is formed between the mobile station 150 and the mobile station 150.

FIG. 3 shows a configuration of the base station 130 according to an embodiment of the present invention. The base station 130 has an antenna 132,
It includes a transmission / reception unit 134, a baseband processing unit 136, a base station control unit 138, a transmission unit 140, and a temperature measurement unit 142. The antenna 132 is an antenna,
4 and the signal transmitted from the mobile station 150 in FIG. 2 is received. Transmitting / receiving unit 13
Reference numeral 4 performs analog processing such as amplification processing and modulation processing of transmission signals and reception signals, and processing such as analog-digital conversion and digital-analog conversion. The baseband processing unit 136 performs baseband processing on the transmission signal and the reception signal. The base station control unit 138 controls the base station 130
And controls the configuration of the baseband processing unit 136 and the like included in. The transmission unit 140 performs a signal transmission process with the control station 120 in FIG. The temperature measurement unit 142 measures the temperature of a predetermined configuration included in the transmission / reception unit 134. Then, temperature measuring section 142 converts the measured temperature into a signal and outputs the signal to baseband processing section 136.

FIG. 4 shows a configuration of a mobile station 150 according to an embodiment of the present invention. The mobile station 150 has an antenna 152,
It includes a transmitting / receiving unit 154, a baseband processing unit 156, a mobile station control unit 158, and a temperature measurement unit 160. Antenna 1
An antenna 32 transmits a signal formed by the transmission / reception unit 134, and receives a signal transmitted from the base station 130 in FIG. The transmission / reception unit 154 performs processing such as analog processing such as amplification processing and modulation processing of transmission signals and reception signals, and analog-digital conversion and digital-analog conversion. Baseband processing unit 156
Performs baseband processing of the transmission signal and the reception signal. The mobile station control unit 158 controls the configuration of the baseband processing unit 156 and the like included in the mobile station 150. Temperature measuring section 160 measures the temperature of a predetermined configuration included in transmitting / receiving section 154. Further, the temperature measuring section 160 converts the measured temperature into a signal and converts the measured temperature into a signal.
6 is output.

FIG. 5 shows a wireless transmitting / receiving apparatus 200 according to an embodiment of the present invention. Referring to FIG. 2, wireless transmitting / receiving apparatus 200 is preferably incorporated in mobile station 150 and / or base station 130 in wireless communication system 110. The wireless transmission / reception device 200 includes a transmission / reception unit 134 for performing signal transmission / reception processing, a baseband processing unit 136 for performing signal baseband processing, a temperature measurement unit 142 for measuring a temperature of a predetermined configuration included in the transmission / reception unit 134, and a signal. Antenna 208 for transmitting and receiving data.

The transmission / reception unit 134 has a common unit 212 that enables the antenna 208 to be used without any interaction between the transmission signal and the reception signal. The transmission / reception unit 134 includes a reception unit 210 and an analog / digital conversion unit 226 as a reception system. The receiving section 210 includes an amplifying section 214 for performing signal amplification processing, a bandpass filter 216 for passing only a signal having a predetermined frequency band, a frequency converting section 218 for converting a signal frequency, and passing only a signal having a predetermined frequency. Band filter 220 for converting the frequency of the signal, frequency conversion section 222 for converting the frequency of the signal, and low-pass filter 22 for passing only a signal having a frequency lower than a predetermined frequency
4

The transmission / reception unit 134 has a transmission system
An analog processing unit 230 as a transmission unit and a digital
It has an analog converter 232. The analog processing unit 230, which is a transmitting unit, includes a low-pass filter 234 that passes only a signal having a frequency lower than a predetermined frequency, an orthogonal modulation unit 236 that performs orthogonal modulation of a signal, and a frequency conversion unit 238 that performs frequency conversion of a signal. , A bandpass filter 240 that passes only a signal having a predetermined frequency band, an amplification unit 242 that performs signal amplification processing, a bandpass filter 244 that passes only a signal having a predetermined frequency band, and power amplification that performs signal power amplification processing A unit 246 and a low-pass filter 248 that passes only signals having a frequency lower than a predetermined frequency.

The baseband processing unit 136 includes, as a receiving system, a bandpass filter 280 that passes only a signal having a predetermined frequency band, a quadrature detection unit 282 that performs quadrature detection processing of the signal, and a synchronization unit 284 that performs signal synchronization processing. , And a decoding unit 286 that performs signal decoding processing. Further, the baseband processing unit 136 includes a modulation unit 262 that performs signal modulation processing as a transmission system, and a distortion compensation unit 260 that performs signal distortion compensation processing.

The distortion compensator 260 calculates a signal power by using a power calculator 266, a compensation value table 268 in which compensation values for performing signal distortion compensation processing are stored in advance, and a signal distortion compensation using the compensation values. It has a pre-distortion unit 264 for performing processing.

The temperature measuring section 142 has a temperature sensor 252 for measuring the temperature of the analog processing section 230 as a transmitting section, and an analog / digital converter for converting an analog temperature signal based on the temperature measured by the temperature sensor 252 into a corresponding digital temperature signal. It has a digital conversion unit 254.

Next, the receiving operation of the radio transmitting / receiving apparatus 200 will be described. The analog reception signal received from the antenna 132 is transmitted to the common unit 212, the amplification unit 214, the bandpass filter 216, the frequency conversion unit 218, the bandpass filter 220,
The frequency is adjusted by the frequency converter 222 and the low-pass filter 224 and output to the analog / digital converter 226. The analog / digital conversion unit 226 converts the analog reception signal into a corresponding digital reception signal, and outputs the digital reception signal to the baseband processing unit 136. In the baseband processing unit 136, the bandpass filter 280, the quadrature detection unit 282, the synchronization unit 284, and the decoding unit 286 demodulate the passed digital reception signal and output it to another processing unit.

Next, the transmission operation of the radio transmitting / receiving apparatus 200 will be described. The digital modulation signal output from the modulator 82 is input to the distortion compensator 260. Distortion compensator 26
0 is the power and temperature measurement unit 14 of the digital modulation signal.
The modulated digital signal is compensated based on the digital temperature signal input from Step 2. Further, the distortion compensator 260
A digital compensation signal, which is a compensated modulated digital signal, is output to the digital / analog conversion unit 232.

The digital / analog conversion unit 232 converts the input digital compensation signal into a corresponding analog compensation signal, and outputs it to the analog processing unit 230 as a transmission unit.

In the analog processing section 230 as a transmission section, the low-pass filter 234, the quadrature modulation section 236, the frequency conversion section 238, the band-pass filter 240, the amplification section 242, the band-pass filter 244, the power amplification section 246, and the low-pass filter 248 , Adjust the passing analog compensation signal. Further, the analog processing unit 230 serving as a transmission unit transmits the adjusted analog transmission signal which is an analog compensation signal to the common unit 212.
Output to The common unit 212 transmits the analog transmission signal by outputting the analog transmission signal to the antenna 132.

The analog processing section 230 is formed by an analog integrated circuit such as an operational amplifier. Analog processing unit 2
Numeral 30 is affected by a change in temperature and easily changes operating characteristics. As a result, waveform distortion is likely to occur in the analog transmission signal processed by the analog processing unit 230 due to the influence of the temperature change of the analog processing unit 230 itself.

The waveform distortion of the transmission signal degrades the reception quality. In particular, in digital wireless communication in a narrow band, deterioration of reception quality due to waveform distortion is remarkable. In order to compensate for the waveform distortion of the transmission signal, the wireless transmission / reception device 200 according to the present invention includes a transmission signal processing device 206. The transmission signal processing device 206 includes an analog processing unit 230 and a digital / analog
2. Distortion compensator 26 in baseband processor 136
0 and a temperature measuring unit 142.

The transmission signal processing device 20 according to the present invention
6 indicates that the operating frequency band is 400 MHz or 15
Among the narrow-band digital communication systems at 0 MHz, it is used for digital radio communication systems for business use including public business use in particular by the frequency division multiple access system. In narrowband digital wireless communication, in digital wireless communication based on the frequency division multiple access method, the frequency band interval that can be used for transmitting and receiving signals is extremely narrow, for example, 6.25 kHz. Therefore, the transmission signal and the reception signal are easily affected by waveform distortion of another signal using another adjacent frequency band. Therefore, in narrowband digital wireless communication,
In frequency division multiple access digital wireless communication, compensation for waveform distortion of a transmission signal is very important.

The waveform distortion generated by the analog processing section 230 mainly depends on the temperature change of the analog processing section 230.
This is due to a change in output characteristics. In particular, the waveform distortion greatly affects an output change due to a temperature change of the power amplification unit 246 included in the analog processing unit 230. In the present invention, the transmission signal processing device 206 includes an analog processing unit 230
The waveform distortion is compensated for by using the compensation value corresponding to the temperature of.
Hereinafter, the operation of the transmission signal processing device 206 that adjusts the digital modulation signal supplied from the modulation unit 262 will be described.

The modulator 262 forms the digital modulation signal Z by the π / 4 shift 4 phase shift keying system. When a digital modulation signal is represented by a complex number using a complex number j, the digital modulation signal has an I component indicating a real part and a Q component indicating an imaginary part represented by the following equation. Z = I + jQ Further, the digital modulation signal Z has an amplitude A expressed by the following equation.
And a phase T. A = √ (I ² + Q ² ) T = arctan (Q / I) Then, the modulation section 262 outputs the digital modulation signal to the pre-distortion section 264 and the power calculation section 266 included in the distortion compensation section 260.

The power calculator 266 calculates the signal power α based on the input digital modulation signal by the following equation. α = I ² + Q ² and the power calculator 266 outputs the signal power to the compensation value table 268.

The temperature sensor 252 measures the temperature of the analog processing section 230. The temperature sensor 252 may measure the temperature of the entire analog processing unit 230, or may measure a portion that is a main factor causing waveform distortion in the analog transmission signal. In the present embodiment, the temperature sensor 252 detects the power amplifying unit 2 as a portion that causes waveform distortion.
The temperature at 46 is measured. Temperature sensor 252 outputs the measured temperature of analog processing section 230 to analog / digital conversion section 254 as an analog temperature signal indicating the measured temperature. The analog-to-digital converter 254 converts the analog temperature signal into a digital temperature signal indicating the corresponding measured temperature, and outputs the digital temperature signal to the compensation value table 268.

The compensation value table 268 includes power compensation data for compensating for waveform distortion corresponding to the signal power of the modulated digital signal, and a temperature for compensating the power compensation data corresponding to the temperature of the analog processing unit 230. The correction data is stored in advance. In the present embodiment, the temperature correction data is
This is data for correcting the power compensation data corresponding to the temperature of the power amplifying unit 246. As described above, the compensation value table 268 may have two types of data of the power compensation data and the temperature correction data, but in another embodiment, the correspondence between the power compensation data and the temperature correction data is summarized. It may have compensation value data.

The storage of the compensation value in the compensation value table is shown in FIG.
This is performed using the compensation value setting jig 300 described below.
The transmission analog signal output from the analog processing section 230 is split and input to the compensation value setting jig 300. The signal output from the compensation value setting jig 300 is input to the distortion compensator 260.

The compensation value table 268 stores the waveform of the analog transmission signal based on the power compensation data corresponding to the signal power of the digital modulation signal and the temperature correction data corresponding to the temperature digital signal indicating the temperature of the power amplifier 246. A compensation value hp for compensating the distortion is generated. Compensation value hp
Has the inverse characteristic of the nonlinear distortion characteristic of the analog processing unit 230. The compensation value hp is output to the pre-distortion section 264.

The pre-distortion section 264 compensates the digital modulation signal Z by the following equation based on the input compensation value hp to form a digital compensation signal Z '. Z ′ = Z × hp The amplitude A ′ and the phase T ′ of the digital compensation signal Z ′ compensated using the compensation value hp are expressed by the following equations. A ′ = √ ((hp × I) ² + (hp × Q) ² ) T ′ = arctan ((hp × Q) / (hp × I)) For the I component and the Q component of the digital modulation signal Z,
The digital compensation signal Z ′ may be formed by independently setting the compensation values hp. The pre-distortion section 264 outputs the digital compensation signal to the digital / analog conversion section 232.

The digital / analog conversion section 232 converts the digital compensation signal into a corresponding analog compensation signal and outputs the signal to the analog processing section 230. By inputting an analog compensation signal previously compensated based on the temperature of the analog processing unit 230 to the analog processing unit 230, the analog processing unit 230 can be apparently linearly operated. Then, the analog processing unit 230 can adjust the analog compensation signal to form an analog transmission signal with reduced waveform distortion. Further, the analog processing unit 230
Outputs the analog transmission signal to the common unit 212, and the common unit 212 transmits the analog transmission signal by outputting it to the antenna 132.

In the radio transmitting / receiving apparatus 200 according to the present embodiment, there is no conventionally provided closed circuit. Therefore, it is possible to reduce the circuit scale as compared with the related art, and it is also possible to solve the conventional problem that it takes time to converge the signal by performing the closed loop processing on the signal.

FIG. 6 shows a compensation value setting jig 300 for setting temperature compensation data and power compensation data or compensation value data in compensation value table 268 in radio transmitting / receiving apparatus 200 with reference to FIG. The compensation value setting jig 300 includes a level adjusting unit 31 that adjusts a signal level.
0, a frequency conversion unit 312 for converting the frequency of the signal, a bandpass filter 314 for passing only a signal having a predetermined frequency band, an amplification unit 316 for amplifying the signal, a quadrature detection unit 318 for performing quadrature detection of the signal, and an analog signal. An analog-to-digital converter 320 for converting the signal into a corresponding digital signal is provided.

The compensation value setting jig 300 presets temperature correction data and power compensation data or compensation value data in the wireless transmission / reception apparatus 200 and stores compensation values included in the wireless transmission / reception apparatus 200. It is used to write the compensation value to the table 268.
The compensation value setting jig 300 is preferably used when the wireless transmitting / receiving device 200 is connected to an external input / output terminal for inputting / outputting data contents with the outside. In addition, it is preferable to set the temperature correction data and the power compensation data or the compensation value data using the compensation value setting jig 300 before using the mobile station or the base station, for example, at the time of factory shipment. .

The operation of the compensation value setting jig 300 will be described. An analog transmission signal transmitted from the analog processing unit 230, which is a transmission unit of the wireless transmission / reception device 200, is input to the compensation value setting jig 300. Level adjuster 31
0, the frequency converter 312, the bandpass filter 314, the amplifier 316, and the quadrature detector 318 adjust the passing analog transmission signal and output the analog transmission signal to the analog / digital converter 320 as an analog feedback signal. The analog-to-digital converter 320 converts the analog feedback signal into a corresponding digital feedback signal, and outputs the digital feedback signal to the distortion compensator 260 which is a part of the baseband processor 136 included in the wireless transmitting / receiving apparatus 200.

The distortion compensating section 260 is based on the digital modulation signal indicating the transmission signal input to the distortion compensating section 260, the digital temperature signal indicating the measured temperature of the analog processing section 230 as the transmitting section, and the digital feedback signal. The optimum compensation value at the measurement temperature is stored in a compensation value table 268.
Write to. By repeating the above operation at each temperature, a compensation value table having an optimal compensation value at each temperature can be created.

The writing of the compensation value into the compensation value table may be controlled by the compensation value setting jig 300. In that case, the compensation value setting jig 300 may have a write control unit that controls writing of the compensation value in the compensation value table 268 included in the wireless transmission / reception device 200.

Although the present invention has been described with reference to the embodiment, the technical scope of the present invention is not limited to the scope described in the above embodiment. Various changes or improvements can be added to the above embodiment. It should be noted that such modified or improved embodiments may be included in the technical scope of the present invention.
It is clear from the description of the claims.

[0052]

As apparent from the above description, according to the present invention, the time required for compensating for the waveform distortion of the transmission signal can be reduced, and the size of the transmission signal processing apparatus can be reduced. It has the effect of being able to.

[Brief description of the drawings]

FIG. 1 shows a wireless communication transmitting / receiving apparatus 10 used for conventional frequency division multiple access digital wireless communication.

FIG. 2 shows a digital wireless communication system 110 according to one embodiment of the present invention.

FIG. 3 shows a configuration of a base station 130 according to an embodiment of the present invention.

FIG. 4 shows a configuration of a mobile station 150 according to an embodiment of the present invention.

FIG. 5 shows a wireless transmission / reception device 20 according to an embodiment of the present invention.
Indicates 0.

FIG. 6 shows a compensation value setting jig 300 for setting temperature correction data and power compensation data or compensation value data in a compensation value table 268 in the wireless transmission / reception device 200.

[Explanation of symbols]

10. Radio communication processing device, 12 Antenna, 14.
Transmitting / receiving device, 16 baseband processing section, 20 receiving section, 22 common section, 24 amplifying section, 26 bandpass filter, 28 frequency converting section, 30 bandpass filter, 32 band .Frequency converter, 34..Low-pass filter, 3
6. Analog-to-digital converter, 40 ... Transmitter,
42 digital-to-analog converter, 44 low-pass filter, 46 quadrature modulator, 48 frequency converter,
50 band filter, 52 amplifying unit, 54 band filter, 56 power amplifying unit, 58 low-pass filter, 60 feedback unit for transmission signal adjustment, 62 level adjusting unit, 64 ..Frequency converters, 66..bandpass filters,
68 amplifying section, 70 quadrature detecting section, 72 analog-digital converting section, 80 distortion compensating section, 82 modulating section, 84 predistortion section, 86 power calculating section, 88 ..Error calculator, 90..coefficient table,
92 ··· Coefficient update unit, 100 ··· Band filter, 102
..Quadrature detection unit, 104 synchronization unit, 106 decoding unit, 110 digital radio communication system, 120
Control station, 130 base station, 150 mobile station, 13
0 base station, 132 antenna, 134 transmission / reception unit, 136 baseband processing unit, 138 base station control unit, 140 transmission unit, 150 mobile station, 152
..Antenna, 154... Transmitting / receiving section, 156... Baseband processing section, 158... Mobile station control section, 160... Temperature measuring section, 200... Radio transmitting and receiving apparatus, 206. .Receiver, 212... Common part, 2
14. amplifying section, 216 bandpass filter, 218
Frequency conversion section, 220 band-pass filter, 222 frequency conversion section, 224 low-pass filter, 226 analog-digital conversion section, 230 analog processing section,
232: digital / analog processing section, 234: low-pass filter, 236: quadrature modulation section, 238: frequency conversion section, 240: bandpass filter, 242: amplification section,
244 band filter, 246 power amplifier, 24
8. Low pass filter, 252 Temperature sensor, 254
・ Analog-to-digital converter, 260 ・ ・ Distortion compensator,
262 modulation section, 264 predistortion section, 266 power calculation section, 268 compensation value table, 280 bandpass filter, 282 quadrature detection section,
284 synchronization section, 286 decoding section, 300 compensation value setting jig, 310 level adjustment section, 312 frequency conversion section, 314 bandpass filter, 316 amplifying section, 318. Quadrature detector, 320 analog-digital converter

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Tsukasa Ishii 3-14-20 Higashinakano, Nakano-ku, Tokyo International Electric Company F-term (reference) 5K004 AA01 BA02 BB04 5K022 AA10 AA11 5K060 BB07 CC04 CC11 DD04 HH06 KK06 5K067 AA00 AA42 CC02 EE02 EE10 EE16

Claims (6)

[Claims] 1. A transmission signal processing apparatus used for frequency division multiple access digital radio communication, comprising: a digital-to-analog converter for converting a digital signal indicating data content into an analog signal; An analog processing unit that performs analog processing on an analog signal output from the unit; a temperature measurement unit that measures a temperature of the analog processing unit; and a processing unit that processes the analog signal corresponding to the temperature measured by the temperature measurement unit. And a distortion compensator for adjusting a digital signal output to the digital-to-analog converter using a compensation value for compensating waveform distortion of the analog signal. 2. The transmission signal processing device according to claim 1, wherein the distortion compensator has a compensation value table in which the compensation value corresponding to the temperature of the analog processor is stored in advance. 3. The analog processing section has a power amplification section; the temperature measurement section measures the temperature of the power amplification section; and the distortion compensation section has the compensation value corresponding to the temperature of the power amplification section. 2. The transmission signal processing apparatus according to claim 1, further comprising a compensation value table in which is stored in advance. 4. A mobile station used for frequency division multiple access digital radio communication, comprising: a digital / analog converter for converting a digital signal indicating data content into an analog signal; An analog processing unit that performs analog processing on the output analog signal; a temperature measurement unit that measures the temperature of the analog processing unit; and an analog that is processed by the analog processing unit and corresponds to the temperature measured by the temperature measurement unit. A mobile station comprising: a distortion compensator that adjusts a digital signal output to the digital-to-analog converter using a compensation value for compensating waveform distortion of a signal. 5. A base station used for frequency division multiple access digital radio communication, comprising: a digital / analog converter for converting a digital signal indicating data content into an analog signal; An analog processing unit that performs analog processing on the output analog signal; a temperature measurement unit that measures the temperature of the analog processing unit; and an analog that is processed by the analog processing unit and corresponds to the temperature measured by the temperature measurement unit. A base station comprising: a distortion compensator that adjusts a digital signal output to the digital-to-analog converter using a compensation value for compensating waveform distortion of a signal. 6. A digital radio communication system using a frequency division multiple access system, comprising: a digital-to-analog converter for converting a digital signal indicating data content into an analog signal; An analog processing unit that performs analog processing on the analog signal, a temperature measurement unit that measures the temperature of the analog processing unit, and an analog signal that is processed by the analog processing unit that corresponds to the temperature measured by the temperature measurement unit. A mobile station having a distortion compensator for adjusting a digital signal output to the digital / analog converter using a compensation value for compensating for waveform distortion; and receiving a transmission signal transmitted from the mobile station. A digital radio communication system, comprising: a base station.