JP3197467B2 - Transmission output control device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a TDMA (time
The present invention relates to a transmission output control device provided to a transmitter in a division multiple access (time division multiple access) wireless communication system, and particularly to a transmission output control device for maintaining a constant transmission output, such as an APC (Auto Power Control) circuit. About.

[0002]

2. Description of the Related Art In recent years, mobile terminals of mobile communication systems, such as cellular telephones, capable of talking while moving, have become increasingly popular. The transmission system of these mobile communication systems is shifting from an analog transmission system to a digital transmission system because of the ease of listening to voice and the ease of adding an eavesdropping prevention mechanism. Today, PHS is a new mobile communication system employing a digital transmission system.
(Personal handy phone system) has also reached the stage of practical use, and the demand for it has been increasing.

In these mobile terminal devices, an APC circuit for maintaining a constant transmission output is widely used as a transmission output control device in order to maintain the line quality of a wirelessly connected line.

Here, a conventional transmission output control device A
The PC circuit will be described below with reference to FIG. That is, the APC circuit amplifies the input RF signal with a gain based on the APC voltage.
And a directional coupler 54 for dividing the amplified RF signal.
And an antenna 55 for transmitting one of the divided RF signals.
R is input so that the output is constant.
In this configuration, the F signal is amplified and transmitted.

Specifically, the APC circuit controls the transmission output to a desired value by controlling the APC voltage by feeding back the RF signal divided by the directional coupler 54. The feedback path of the APC circuit includes a detection circuit 56 for detecting the other of the RF signals divided by the directional coupler 54, a control voltage generation circuit 57 for generating a control voltage indicating a desired transmission output, and a detection circuit 56. The detection voltage obtained,
A comparison circuit 58 compares the control voltage with the control voltage to adjust the APC voltage.

The comparison circuit 58 lowers the APC voltage when the detection voltage is higher than the control voltage, and raises the APC voltage when the detection voltage is lower than the control voltage.
As a result, the transmission output of the power amplifier 53 is automatically controlled to a desired transmission output according to the control voltage.

However, in the TDMA wireless communication system for performing burst transmission, the control voltage generation circuit 57 generates a rectangular control voltage in order to output a rectangular transmission output for a certain period of time. Therefore, the comparison circuit 58 cannot follow the steep rise and fall of the control waveform, which is the waveform of the reference control voltage, causing linking in the transmission output of the APC circuit and the transmission spectrum at the rise and fall of the transmission waveform. Has been problematic.

In order to solve this problem, for example, as shown in Japanese Patent Laid-Open No. 5-67982, a comparison circuit 5 is disclosed.
A configuration is disclosed in which a control voltage generating circuit generates a pre-distorted control voltage so that the control voltage can follow the control voltage. Here, as another conventional example, an APC circuit including a control voltage generation circuit that generates the above-described predistorted control voltage will be described with reference to FIG.

In this conventional example, a control voltage generating circuit 59 for generating a pre-distorted control voltage is provided in place of the control voltage generating circuit 57. The control voltage generation circuit 59 includes a waveform table 59a, a counter 59b,
A register 59c and a comparison D / A converter 59d are provided, and the waveform data sequence stored in the waveform table 59a in time series is sequentially stored in the register 59c according to the count value of the counter 59b, and the comparison is performed. In this configuration, a pre-distorted waveform is generated by converting the analog value into an analog value by the D / A converter 59d. The waveform table 59a previously stores waveform data set so that linking does not occur in an actual output and the rising and falling times are short.

As described above, any of the conventional APC circuits always compares the detected signal waveform with the control waveform,
The gain of the power amplifier 53 is controlled.

[0011]

However, in the above-described conventional APC circuit, since the analog closed loop operation is performed, the detection circuit 56 and the comparison circuit 58 are not used.
May cause the amplitude component of the transmission signal to be suppressed to a certain level. In particular, Japanese PDC (Personal Digital Cellular)
IS, the standard for digital cars and mobile phones in North America
Π / 4DQPSK (Differential Quadrature) which is a modulation method adopted in IS54C or IS54C.
When performing modulation using a linear digital modulation method such as the Phase Shift Keying method, the waveform of a transmission signal is distorted due to this action, and the modulation accuracy of the transmission signal is reduced and the transmission spectrum is distorted. The distortion of the transmission spectrum causes an increase in adjacent channel leakage power and an increase in occupied bandwidth. This causes a problem that the quality of the wirelessly connected line is degraded, and a solution to this problem is eagerly desired.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and has as its object to provide a transmission output control device capable of transmitting a constant output without affecting line quality and independent of environmental conditions. Is to provide.

[0013]

According to a first aspect of the present invention, there is provided a transmission output control apparatus in which a transmission period during which transmission is performed and a transmission suspension period during which transmission is not performed are separately provided. A transmission output control device provided to a transmission device using the division multiple access system and including a transmission power amplifying unit for amplifying a transmission signal with a designated gain is characterized by employing the following means.

That is, the transmission power amplifying unit is provided with control means for keeping the gain constant during the transmission period and controlling the gain during the transmission suspension period.

Since the gain of the transmission power amplifying unit does not change during the transmission period and changes during the transmission suspension period, the transmission output can be adjusted without causing distortion of the transmission signal waveform due to the change in the gain. Since the distortion of the transmission signal waveform can be reduced, it is possible to reduce the modulation accuracy and the transmission spectrum distortion. As a result, the occupied bandwidth can be suppressed to a desired width, the leakage power to adjacent channels can be reduced, and the line quality can be improved.

Further, the transmission output control device compares a transmission output detected by the transmission output detection unit with a desired transmission output, the transmission output detecting unit detecting a transmission output from the transmission power amplifying unit. Comparison means. Further, the control means controls the gain of the transmission power amplifying section based on the comparison of the comparison means so that the transmission output becomes a desired value .
A predetermined bit string whose transmission signal waveform is predetermined
During the period when the transmission power amplifier transmits the
Transmission based on the detection result of the transmission output detection means.
Determine the magnitude relationship between the transmission output and the desired transmission output during the period
It is characterized in that.

As the transmission output detecting means, a detection circuit for detecting a transmission signal is used.

In the above configuration, during the transmission period, the transmission power amplifying unit amplifies and transmits the transmission signal with a predetermined fixed gain. The transmission output detection means detects the output of the transmission signal to be transmitted, for example, by detecting. The comparing unit compares the transmission output detected by the transmission output detection unit with a desired transmission output. When the transmission period ends and the transmission suspension period is reached, the control unit, according to the judgment of the comparison unit,
The gain of the transmission power amplifier is controlled so that the transmission output has a desired value. Specifically, the control means increases the gain of the transmission power amplifier when the transmission output does not reach the desired value, and increases the gain of the transmission power amplifier when the transmission output exceeds the desired value. Decrease. In the next transmission period, the control unit keeps the gain of the transmission power amplification unit constant.
Thereby, the transmission power amplifying unit amplifies and transmits the transmission signal with the corrected gain during the transmission period.

The transmission output control device compares the transmission output transmitted during the transmission period with the desired transmission output and adjusts the transmission output during the transmission suspension period, so that the transmission output control device is not affected by environmental conditions. Can be obtained.

Further, the comparison result obtained by the comparing means during the transmission period is not reflected on the transmission output during the transmission period.
Therefore, even if the transmission output detection means and the comparison means follow the steep rise and fall, the amplitude component of the transmission signal is not suppressed. As a result, the waveform distortion of the transmission output can be further reduced, and the line quality can be further improved.

The transmission output control apparatus according to the second aspect of the invention, in order to solve the above problems, in the structure of the invention of claim 1, the transmission output gain control value for controlling the gain of the transmission power amplifying section A gain control table stored in association with the transmission power amplifying unit, based on the gain control value stored in the gain control table when a desired transmission output is newly designated. Is characterized by determining an initial value of the gain.

The gain control table is a ROM (R
ead-Only Memory) and RAM (Random access Memory)
).

In the above configuration, when the desired transmission power is changed, the control means reads the gain control value corresponding to the newly given transmission power from the gain control table. Thereafter, the control means adjusts the gain of the transmission power amplifier during the transmission suspension period based on the obtained gain control value.

Therefore, when the desired transmission power is changed, the initial value of the gain applied to the transmission power amplifier can be set according to the specified transmission power, and the desired transmission power can be set from the beginning. Value can be approached. Therefore, it is possible to prevent the transmission output control device from transmitting with an undesirably different output, and it is possible to reduce the time required for the transmission output of the transmission output control device to stabilize to a desired value.

As described above, in the transmission output control device according to the first aspect of the present invention, the comparing means includes a transmission output control unit which outputs
Based on the detection result of the transmission output detecting means in a period in which the transmission power amplifier transmits a transmission signal obtained by modulating a predetermined bit string in which a waveform of a corresponding transmission signal is predetermined, a transmission output during a transmission period and a desired It is characterized by judging the magnitude relationship with the transmission output. In addition, claim 3
A transmission output control device according to the invention solves the above problems.
In the configuration of the first or second aspect of the present invention,
The period during which a fixed bit string is transmitted is the above transmission power amplification
The period during which the unit transmits the synchronization word
I have.

During the transmission period, the transmission power amplifier amplifies the transmission signal with a constant gain and transmits the signal, and the transmission output detection means
Transmission output is detected. Since the gain of the transmission power amplifying unit is kept constant during the transmission period, the detection of the transmission output detecting unit during a period during which a predetermined bit string is transmitted, for example, a period during which the transmission power amplifying unit transmits a synchronization word. Based on the result, the comparing means can determine the magnitude relationship between the transmission output during the transmission period and the desired transmission output.

Since the waveform of the transmission signal corresponding to the predetermined bit sequence is predetermined, the waveform of the transmission signal of the transmission power amplifier during the period of transmitting the predetermined bit sequence is
Regardless of the transmission output, each transmission period has a substantially similar shape. Therefore, the transmission output detection means can more accurately detect the transmission output during the period. As a result, the comparing means can more accurately determine the magnitude relationship between the transmission output and the desired transmission output.

[0028]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to FIGS.
As shown in FIG. 1, an APC circuit 1, which is a transmission output control device according to the present embodiment, is provided to a mobile wireless device in a TDMA wireless communication system that does not perform transmission and reception simultaneously, such as a PHS, and outputs an RF signal at a fixed transmission output Is used for transmission.

The APC circuit 1 includes a variable attenuator 2 for attenuating an RF signal input from a modulation circuit (not shown) based on a given attenuation control value, and a power amplifier 3 for amplifying the attenuated RF signal. It has. The output of the power amplifier 3 is split by a directional coupler 4, one of which is transmitted by an antenna 5 and the other is fed back. By changing the attenuation control value given to the variable attenuator 2 in accordance with the feedback transmission output, the APC circuit 1
Is kept constant. Note that the variable attenuator 2 and the power amplifier 3 correspond to the transmission power amplifying unit described in the claims.

The power amplifier 3 amplifies the output of the variable attenuator 2 with a predetermined gain. In the power amplifier 3, the gain and the like are set so as not to cause distortion in the amplified RF signal in a change range of the RF signal attenuated by the variable attenuator 2.

The feedback path of the APC circuit 1 includes a detection circuit (transmission output detection means) 6, an A / D converter 7, a digital processing unit 8, a latch 9, and a D / A converter 10. The detection circuit 6 compensates for the effects of temperature and frequency, and detects a part of the transmission output divided by the directional coupler 4. The detected detection signal is converted into a digital value by an A / D converter 7 at predetermined time intervals, and then sent to a digital processing unit (control means) 8. The digital processing unit 8 corrects the attenuation control value indicating the attenuation of the variable attenuator 2 based on the sequentially input detection signal, and outputs the corrected attenuation control value to the latch 9 during a transmission suspension period of the wireless device, such as during reception or standby. I do. The digital processing unit 8
Does not send the attenuation control value to the latch 9 during the transmission period. Note that the digital processing unit 8 may transmit the attenuation control value to the latch 9 every transmission suspension period, or may transmit the attenuation control value during a specific transmission suspension period. The latch 9
Each time the attenuation control value is provided from the digital processing unit 8,
This is stored and held until the next attenuation control value is given. The held attenuation control value is converted by the D / A converter 10 into an analog value. The attenuation of the variable attenuator 2 is determined by a voltage based on the attenuation control value.

Thus, during the transmission period, the attenuation of the variable attenuator 2 can be maintained at a constant value. Also,
During the transmission suspension period, the attenuation of the variable attenuator 2 can be adjusted according to the transmission output during the transmission period.

In the digital processing section 8, the correction of the attenuation control value is performed by comparing detection voltage data indicating a transmission output during transmission with detection voltage data indicating a desired transmission output.

That is, the digital processing unit 8 compares the detected voltage data with the detected voltage for calculating the detected voltage data based on the digital value given from the A / D converter 7 during the transmission period of the synchronization word. A data calculation unit 20,
A detection voltage data table 21 storing detection voltage data corresponding to the transmission output;
And a comparing unit (comparing means) 22 for comparing the detected voltage data calculated in the above with the detected voltage data indicating the desired transmission output read from the detected voltage data table 21. Further, the digital processing unit 8 includes an attenuation control table (gain control table) 23 storing the attenuation control value corresponding to the transmission output, and a latch 23 for correcting the attenuation control value according to the comparison result. And a control unit (control means) 24 that corrects the attenuation control value given to the control unit 9 according to the comparison result of the comparison unit 22.

The detection voltage data calculation unit 20, the comparison unit 22, and the control unit 24 are functional modules realized by a CPU (Central Processing Unit) 25 included in the digital processing unit 8 executing a predetermined program. It is. The detection voltage data table 21 and the attenuation control table 23 are stored in a ROM (Read-Only).
Memory 26) and can be read out by the comparing unit 22 and the control unit 24. The digital processing unit 8 includes a ROM (not shown) that stores the programs, a RAM (Random Access Memory) (not shown) provided with a work area used by the programs, and the like.

The detection voltage data calculating section 20 transmits the RF signal obtained by modulating a predetermined bit string, such as a transmission period of a synchronization word, by the power amplifier 3, for example.
The detection voltage data is calculated by, for example, summing the digital values obtained from the A / D converter 7 at predetermined time intervals.

The detection voltage data table 21 is a table in which detection voltage data indicating outputs to be transmitted are arranged in order and stored in a table form. In the detection voltage data table 21, the address at which the detection voltage data indicating the transmission output is stored can be obtained from the desired transmission output.

Further, the comparing section 22 calculates the address from the detected voltage data table 21 corresponding to the desired transmission output.
The detection voltage data corresponding to the transmission output is read and compared with the detection voltage data obtained from the detection voltage data calculation unit 20. Thereby, the comparison unit 22 determines the magnitude relationship between the transmission output during the transmission period and the desired transmission output.

On the other hand, the attenuation amount control table 23 is shown in FIG.
As shown in FIG. 5, attenuation control values corresponding to outputs to be transmitted are arranged in order and stored in a table. FIG. 2 shows an example of the configuration of the attenuation control table 23 when storing the attenuation control values corresponding to n transmission outputs, for example.

When an output to be transmitted is given, the control unit 24 shown in FIG. 1 acquires an address at which an attenuation control value corresponding to the transmission output is stored. Further, the control unit 2
4 reads the attenuation control value from this address and outputs it to the latch 9 during the transmission suspension period. In addition, the control unit 24
As long as the output to be transmitted does not change, the attenuation control value is corrected based on the comparison result during the transmission period by the comparing unit 22, and is sent to the latch 9 during the transmission suspension period. That is, when the comparing unit 22 determines that the transmission output during the transmission period exceeds the desired value, the control unit 24 corrects the attenuation control value so that the attenuation of the variable attenuator 2 increases, When it is determined that the transmission output has not reached the desired value, the attenuation control value is corrected so that the attenuation of the variable attenuator 2 is reduced.

The power meter 30 is used when writing a detection voltage data table 21 and an attenuation amount control table 23 which will be described below.
It is not necessary to provide in the circuit 1.

Next, data stored in the detection voltage data table 21 and the attenuation control table 23 provided in the ROM 26 will be described. Each table 2
Reference numerals 1 and 23 are stored in advance by the following procedure before normal transmission, such as when the mobile radio is shipped.

That is, the APC circuit 1 is kept under constant environmental conditions such as normal temperature. Therefore, the transmission output does not change due to changes in environmental conditions such as temperature, and the output change of the APC circuit 1 is small even if the attenuation control value is kept constant. In this state, the digital processing unit 8
A certain attenuation control value is given to the latch 9. Variable attenuator 2
Attenuates the RF signal based on the attenuation control value converted to an analog value by the D / A converter 10. The attenuated RF signal is amplified by the power amplifier 3 and transmitted from the antenna 5 via the directional coupler 4.

The output of the RF signal transmitted from the antenna 5 is measured by the power meter 30. The digital processing unit 8 determines the measured value of the power meter 30 based on the measured value of the power meter 30 as one of the predetermined transmission outputs.
The attenuation amount control value is increased or decreased so as to be equal to one. This attenuation control value is sent to the latch 9 during the transmission suspension period and is held. By modifying the attenuation control value, A
The transmission output of the PC circuit 1 approaches a desired transmission output.

By repeating the correction of the attenuation control value, the measured value of the power meter 30 becomes equal to one of the predetermined transmission powers. The attenuation control value in this state is employed as the attenuation control value corresponding to the transmission output, and the detection voltage data at this time is employed as the detection voltage data corresponding to the transmission output.

More specifically, the detection signal detected by the detection circuit 6 is converted into a digital value by the A / D converter 7 at predetermined time intervals. Detection voltage data calculation unit 20
Calculates detection voltage data from the output of the A / D converter 7 during the transmission period of the synchronization word, and the digital processing unit 8 calculates
This detection voltage data is adopted as detection voltage data corresponding to the transmission output.

These processes are performed on each of the predetermined transmission outputs to obtain the detection voltage data and the attenuation control value for each transmission output. The detection voltage data corresponding to each transmission output is stored in an address corresponding to the transmission output in the detection voltage data table 21, and the attenuation control value for each transmission output is stored in the attenuation control table 2.
3 is stored in the address corresponding to the transmission output.

Thus, each of the tables 21 and 23 has
Detected voltage data and an attenuation control value when the APC circuit 1 actually transmits a predetermined output under certain environmental conditions are stored. That is, the detection voltage data table 2
1, the detection voltage data is stored in the detection circuit 6 or the A / D
It includes systematic errors caused by the characteristics of the converter 7 and the method of calculating the detection voltage data in the detection voltage data calculation unit 20. Further, the detected voltage data also includes characteristics unique to each APC circuit 1 resulting from errors in circuit elements and the like.

As a result, when the APC circuit 1 is transmitting with a desired output during normal transmission under certain environmental conditions, the detection voltage data calculated by the detection voltage data calculation unit 20 is stored in the detection voltage data table 21. Is substantially equal to the detected voltage data stored in Therefore, the comparison unit 2
2 can more accurately determine whether the APC circuit 1 is transmitting with a desired output.

During the transmission period, the attenuation control value indicating the attenuation of the variable attenuator 2 is maintained at a constant value, as in the case of storing the detection voltage data. Therefore, when the environmental conditions are constant and the same bit string is transmitted, the detected signal waveform at the time of storing the detected voltage data and the detected signal waveform during the normal transmission period are substantially similar. Also, even if the transmission output changes due to changes in environmental conditions, etc., A
Since the PC circuit 1 does not perform an analog closed loop operation, the waveform distortion of the transmission signal waveform, that is, the waveform distortion of the detection signal waveform is reduced. As a result, by comparing detection voltage data calculated from detection signals during a period in which the same bit string is transmitted, such as a transmission period of a synchronization word, the magnitude of the transmission output during the transmission period and the desired transmission output are compared. The relationship can be determined more accurately.

Similarly, the attenuation control value stored in the attenuation control table 23 is a value corresponding to each APC circuit 1. Since a more accurate attenuation control value can be obtained, the attenuation of the variable attenuator 2 can be controlled more accurately.

In addition, when each data is stored in the detection voltage data table 21 and the attenuation amount control table 23,
No special configuration is required to acquire each data.
Therefore, data stored in each of the tables 21 and 23 can be easily obtained.

Next, the operation of each part of the APC circuit 1 in the above configuration during communication of the mobile radio will be described.

When the output of the RF signal to be transmitted changes, for example, when the transmission output is newly designated from the receiving side that receives the transmission of the mobile radio, the control unit 24 provided in the digital processing unit 8 An attenuation control value corresponding to the transmission output is read from the attenuation control table 23, and the attenuation control value is transmitted to the latch 9 during the transmission suspension period. The D / A converter 10 converts the attenuation control value held in the latch 9 into an analog value and constantly applies the analog value to the variable attenuator 2. Thereby, the amount of attenuation of the variable attenuator 2 is determined.

The amount of attenuation first given to the variable attenuator 2 is an attenuation amount control value according to the transmission output. Since the error between the transmission output of the APC circuit 1 and the desired transmission output can be reduced from the beginning, the time until the transmission output of the APC circuit 1 stabilizes to a desired value can be shortened.

Since the control unit 24 does not send the attenuation control value to the latch 9 during the transmission period, the latch 9 holds the received attenuation control value at least during the transmission period. Therefore, the determined attenuation of the variable attenuator 2 is determined during the transmission period.
It does not change.

In the next transmission period, an RF signal is input to the variable attenuator 2 from a modulation circuit (not shown). During this transmission period, the variable attenuator 2 attenuates the input RF signal with a constant attenuation according to the attenuation control value determined above. The attenuated RF signal is amplified by the power amplifier 3 and then transmitted by the antenna 5 via the directional coupler 4.

On the other hand, R divided by the directional coupler 4
A part of the F signal is detected by the detection circuit 6 and is converted into a digital value by the A / D converter 7 at predetermined time intervals. The detection voltage data calculation unit 20 calculates detection voltage data by adding a sequence of digital values obtained from the A / D converter 7 during the transmission period of the synchronization word. Also, the comparison unit 22
Reads the detected voltage data corresponding to the desired transmission output from the detected voltage data table 21 and compares it with the detected voltage data obtained from the detected voltage data calculation unit 20. By comparing the two detection voltage data, it can be determined whether or not the transmission output during the transmission period of the synchronization word has reached a desired value. Thereby, the comparing unit 22 determines whether the transmission output during the transmission period has reached a desired value.

For example, when transmitted with an output larger than the desired transmission output, the detected signal waveform detected by the detection circuit 6 has a larger amplitude than the detected signal waveform when transmitted with the desired output. . Therefore, the detection voltage data calculated by the detection voltage data calculation unit 20 is compared with the comparison unit 22.
Are larger than the detected voltage data read from the detected voltage data table 21. Therefore, the comparison unit 22 determines that the transmission output during the transmission period exceeds a desired value. The control unit 24 corrects the attenuation control value based on the determination result of the comparison unit 22. During this transmission period, since the transmission output is large, the attenuation control value is corrected so that the attenuation of the variable attenuator 2 becomes large.

When the transmission period ends and the transmission suspension period starts, the control unit 24 outputs the corrected attenuation control value to the latch 9. As a result, the attenuation of the variable attenuator 2 in the next transmission period is determined.

When the transmission output of the APC circuit 1 has not reached the desired value, the detection voltage data calculated by the detection voltage data calculation unit 20 is converted by the comparison unit 22 into a detection voltage data table. 21 is smaller than the detection voltage data read out. Therefore, the comparison unit 22 determines that the transmission output has not reached the desired value. This allows
The control unit 24 corrects the attenuation control value so that the attenuation of the variable attenuator 2 is reduced. As in the case where the transmission output exceeds the desired value, the corrected attenuation control value is output to the latch 9 during the transmission pause period between transmission periods, so that the attenuation of the variable attenuator 2 in the next transmission period is reduced. The amount is determined.

The change amount of the attenuation control value corrected by the control unit 24 may be constant or may be changed according to the difference between the two detected voltage data compared by the comparison unit 22. Since the comparison unit 22 and the control unit 24 perform digital processing, various algorithms can be easily applied when correcting the attenuation control value.

The digital processing unit 8 according to the present embodiment
Is provided with an attenuation control table 23 storing an attenuation control value for a desired transmission output, but is not limited to this. As shown in FIGS. 1 and 3, in place of the attenuation control table 23, for example, a configuration including an attenuation control table 23 a storing attenuation control values corresponding to a combination of a desired transmission output and temperature may be provided. . The attenuation amount control table 23a stores the attenuation amount control values for the combination of the desired transmission output and the temperature in a table. FIG. 3 shows an example of the configuration of the attenuation control table 23a in the case where combinations of, for example, n transmission outputs and m temperatures are stored.

The attenuation control table 23a stores attenuation control values corresponding to combinations of transmission powers and temperatures in substantially the same manner as the attenuation control table 23 shown in FIG. That is, first, one combination of the transmission output and the temperature stored in the attenuation control table 23a is selected. Next, the APC circuit 1 is maintained under the selected temperature condition. Thereafter, as in the case of the attenuation control table 23, the output transmitted from the antenna 5 is
While measuring by 0, the attenuation control value is adjusted until the measured value of the power meter 30 reaches a desired transmission output. The attenuation control value at this time is stored as an attenuation control value for the above-described combination at an address corresponding to the combination in the attenuation control table 23a. By repeating the above operation for each combination, the attenuation control value for each combination is stored in the attenuation control table 23a.

When the output of the RF signal to be transmitted is changed, the control unit 24 determines, based on the temperature detected by the temperature detecting unit (not shown) and the output of the RF signal to be transmitted, the address at which the corresponding attenuation control value is stored. And reads the attenuation control value. Then, during the transmission suspension period, the control unit 2
4 transmits the attenuation control value to the latch 9, whereby the attenuation of the variable attenuator 2 in the next transmission period is determined.

As a result, when the transmission output is changed, the amount of attenuation initially given to the variable attenuator 2 becomes a more accurate value in consideration of the effect of temperature. Therefore, the error between the transmission output of the APC circuit 1 and the desired transmission output can be reduced from the beginning, and the transmission output stabilizes to the predetermined value earlier.

As described above, A according to each of the above-described embodiments is used.
The PC circuit 1 includes the variable attenuator 2, the digital processing unit 8, the latch 9, and the D / A converter 10 shown in FIG.
During the transmission period, the digital processing unit 8 causes the latch 9 to hold the attenuation control value for determining the attenuation of the variable attenuator 2, and during the transmission suspension period, stores the attenuation control value held by the latch 9. Fix it. The attenuation control value held in the latch 9 is converted into an analog value by the D / A converter 10 and is always applied to the variable attenuator 2.

Thus, the APC circuit 1 can keep the attenuation of the variable attenuator 2 constant during the transmission period and adjust the attenuation of the variable attenuator 2 during the transmission suspension period. Therefore, waveform distortion of the transmission output caused by changing the attenuation of the variable attenuator 2 during transmission is eliminated. As a result, a decrease in the modulation accuracy of the transmission signal and a distortion in the transmission spectrum can be reduced, and the line quality can be improved.

In the above configuration, the detection circuit 6 and the A / D converter 7
In addition, the digital processing unit 8 includes the comparison unit 22 and the control unit 24 to form a feedback path. A part of the transmission output is detected by the detection circuit 6 and the A / D converter 7
Is converted into a digital value by the comparator 22, and is compared with a desired transmission output by the comparing unit 22. The control unit 24 controls the attenuation control value given to the variable attenuator 2 so that the transmission output approaches a desired value according to the judgment of the comparison unit 22.

Thus, regardless of changes in environmental conditions,
The transmission output can be kept at a desired value. During the transmission period, the attenuation of the variable attenuator 2 is kept constant,
The comparison result during the transmission period is not reflected until the next transmission period. Therefore, the amplitude component is not constantly suppressed as in the conventional APC circuit that controls the transmission output based on the comparison result. As a result, the distortion of the transmission signal waveform can be suppressed as compared with the related art, so that it is possible to further reduce the modulation accuracy of the transmission signal and the distortion of the transmission spectrum, and to further improve the line quality.

Further, the above-described configuration has an attenuation control table 2.
When the desired transmission output is changed, the control unit 24 reads out the attenuation control value corresponding to the output from the attenuation control table 23 and sends it to the latch 9 during the transmission suspension period. The initial value of the attenuation control value given to the variable attenuator 2 can be set according to a desired transmission output.

As a result, when an instruction to change the transmission output is issued, the transmission output initially transmitted by the APC circuit 1 can be made closer to the desired transmission output. Therefore, the APC circuit 1 does not transmit with an output that is significantly different from the desired transmission output, and the transmission output can be quickly stabilized at a desired value.

The attenuation amount control tables 23 and 23a according to the present embodiment are stored in the ROM 26, but are not limited thereto and may be stored in the RAM. In this case, when the control unit 24 receives an instruction to change the output of the RF signal to be transmitted, it changes the attenuation control value of the address corresponding to the current transmission output based on the current attenuation control value. Then, the initial value of the attenuation control value when the transmission output is specified can be corrected. As a result, when the transmission output is designated next time, it is possible to correct the error between the attenuation control value required to obtain the desired transmission output and the initial value.

Further, in addition to the above configuration, the APC circuit 1
Is provided with the detection voltage data calculation unit 20 and the detection voltage data table 21, so that the comparison unit 22 determines which of the transmission output and the desired transmission output is larger based on the transmission output during the transmission period of the synchronization word. I can judge. Since the attenuation control value indicating the attenuation of the variable attenuator 2 is maintained at a constant value during the transmission period, the transmission output during the transmission period is determined based on the transmission output during a certain period during the transmission period. Can be determined with respect to the transmission output.

During the transmission period of the synchronization word, the transmission waveform is a predetermined waveform corresponding to the bit string. Therefore, the transmission waveform in the transmission period of the synchronization word is substantially similar to each other in each transmission period regardless of the transmission output. As a result, the detection voltage data calculator 20 sets the A / D converter 7 during the transmission period of the synchronization word.
The detection voltage data calculated from the output does not include an error caused by a difference in the bit string to be transmitted and a difference in the waveform of the transmission signal. Therefore, the comparing unit 22 can more accurately compare the magnitude relationship between the transmission output and the desired transmission output.

In the detection voltage data calculation section 20 according to the present embodiment, the transmission period of the synchronization word is selected as the period for detecting the transmission output during the transmission period, but the present invention is not limited to this. If there is another period for transmitting the predetermined bit sequence, the transmission output may be detected during that period, or the transmission period may be detected when the predetermined bit sequence is transmitted from the transmission signal without setting the detection period in advance. The output may be detected. By detecting the transmission output while the power amplifier 3 is outputting the transmission signal having the predetermined waveform, the same effect as in the present embodiment can be obtained. Further, in the present embodiment, the case where one type of synchronization word is used is described, but the present invention is not limited to this. If there are a plurality of synchronization words, the detection voltage data table 21 stores the detection voltage data for the combination of the synchronization word and the transmission output. By reading out the detection voltage data corresponding to the combination of the data and the desired transmission output, the same effect as in the present embodiment can be obtained.

When the APC circuit 1 is transmitting with a desired output, the detected voltage data calculated by the detected voltage data calculating section 20 is stored in the detected voltage data table 21 so that the characteristic characteristic of each APC circuit 1 can be obtained. Can be easily obtained in consideration of the detection voltage data. Thereby, the comparison unit 22 determines the magnitude relationship between the detection voltage data calculated by the detection voltage data calculation unit 20 and the detection voltage data read from the detection voltage data table 21 during transmission, that is,
The magnitude relationship between the actual transmission output and the desired transmission output can be determined more accurately.

In the APC circuit 1 according to the present embodiment, for example, the total output of the A / D converter 7 during the transmission period of the synchronization word is selected as the method of calculating the detection voltage data. is not. For example, each digital value may be weighted and added, or detection voltage data may be calculated by taking an average instead of the sum. Alternatively, one point during the transmission period of the synchronization word may be selected, and the digital value output from the A / D converter 7 at this point may be adopted as the detection voltage data. Since the detection voltage data calculation unit 20 is realized as a functional module of the CPU 25, various methods can be easily adopted as a calculation method of the detection voltage data. If the detection voltage data calculation unit 20 can calculate the detection voltage data from the output of the A / D converter 7 during the transmission period of the synchronization word, and if the magnitude relationship between the transmission outputs can be determined from the calculated detection voltage data, The same effects as those of the present embodiment can be obtained.

Further, similarly to the attenuation control table 23a, the detected voltage data table 21 stores the detected voltage data corresponding to each temperature condition, and the comparing section 22 stores the detected temperature data by the temperature detecting section (not shown). By reading out the detection voltage data for the combination with the desired transmission output, the transmission output during transmission can be more accurately compared with the desired transmission output.

Further, in the APC circuit 1 according to the present embodiment, the A / D converter 7, the detection voltage data calculation unit 20,
Using the detection voltage data table 21 and the comparison unit 22, the comparison unit 22 compares the transmission output with the desired transmission output based on the output of the A / D converter 7 during the transmission period of the synchronization word. However, it is not limited to this. For example, the transmission output during the transmission period of the synchronization word may be obtained from the detection signal of the detection circuit 6 using an analog circuit. If the configuration is such that the transmission output during transmission is compared with the desired transmission output based on the detection signal of the detection circuit 6 during the transmission period of the synchronization word, the same effect as in the present embodiment can be obtained.

However, like the APC circuit 1 according to the present embodiment, the detection voltage data calculation unit 20, the detection voltage data table 21, the comparison unit 22, the attenuation control table 23,
And a digital processing unit 8 including a control unit 24.
25 and a digital processing circuit such as the ROM 26, when the wireless device includes another digital processing circuit, the digital processing circuit and the digital processing unit 8 are integrated together with an LSI (Large Scale Integrated circuit).
uit). As a result, the configuration of the entire wireless device can be simplified.

The detection voltage data calculation unit 20, the comparison unit 22, and the control unit 24 according to the present embodiment
5 are implemented as functional modules,
It is easy to realize 22 and 24 by hardware.

[0083]

As described above, the transmission output control apparatus according to the first aspect of the present invention keeps the gain of the transmission power amplifying unit constant during the transmission period and controls the gain during the transmission suspension period. This is a configuration including a control unit.

Therefore, the distortion of the transmission signal waveform due to the adjustment of the transmission output does not occur. Since the distortion of the transmission signal waveform can be reduced, the modulation accuracy can be reduced and the distortion of the transmission spectrum can be reduced, and the effect of improving the quality of the line can be achieved.

Further, the transmission output control device includes a transmission output detecting means for detecting a transmission output from the transmission power amplifying section, and a comparison for comparing the transmission output detected by the transmission output detecting means with a desired transmission output. and means, said control means, based on the comparison of the comparing means, transmit power controlling the gain of the transmission power amplification unit to a desired value, above
The comparing means outputs the wave of the corresponding transmission signal during the transmission period.
Modulated transmission of a predetermined bit string with a predetermined shape
The transmission during a period in which the signal is transmitted by the transmission power amplifier.
The transmission output during the transmission period is
In this configuration, the magnitude relationship between the force and the desired transmission output is determined .

According to the above configuration, the transmission output transmitted during the transmission period is compared with the desired transmission output, and the transmission output can be adjusted during the transmission suspension period. As a result, there is an effect that the transmission output can be maintained at a desired value irrespective of environmental conditions.

Further, the comparison result obtained by the comparing means during the transmission period is not reflected on the transmission output during the transmission period, so that the waveform distortion of the transmission output can be further reduced. As a result, there is an effect that the line quality is further improved.

[0088] The transmission output control apparatus according to the invention of claim 2, as described above, in the configuration of the invention of claim 1, the gain control value for controlling the gain of the transmission power amplifier in correspondence with the transmission output memory A gain control table, wherein the control means, when a desired transmission output is newly specified, based on the gain control value stored in the gain control table, initializes the gain of the transmission power amplifying unit. This is a configuration for determining a value.

Therefore, when the desired transmission power is changed, the initial value of the gain applied to the transmission power amplifier can be set according to the specified transmission power, and the transmission power can be set to the desired value from the beginning. Can be approached. As a result,
When the transmission output of the transmission output control device is changed, it is possible to prevent transmission with an undesirably different output and to reduce the time required for the transmission output to stabilize to a desired value.

[0090] As described above, the transmission output control apparatus according to the invention of claim 1, comparing means, of the transmission period, the corresponding
The transmission output during the transmission period and the desired transmission are determined based on the detection result of the transmission output detection means during the period when the transmission power amplifier transmits the transmission signal obtained by modulating a predetermined bit sequence in which the waveform of the transmission signal is predetermined. This is a configuration for determining the magnitude relationship with the output. In addition, the transmission output according to the third aspect of the present invention.
As described above, the force control device is the invention according to claim 1 or 2.
In the configuration of
The interval is a period during which the transmission power amplifier transmits a synchronization word.
The configuration is as follows.

Since the waveform of the transmission signal of the transmission power amplifier during the period of transmitting the predetermined bit string is substantially similar to each other for each transmission period regardless of the transmission output, The magnitude relationship between the output and the desired transmission output can be determined more accurately. As a result, there is an effect that the transmission output of the transmission output control device can be controlled more accurately, and the line quality can be further improved.

[Brief description of the drawings]

FIG. 1 illustrates one embodiment of the present invention, and is a block diagram illustrating a main configuration of a transmission output control device.

FIG. 2 is an explanatory diagram showing a method of storing an attenuation control value in an attenuation control table in the transmission output control device.

FIG. 3 is a diagram illustrating a modification of the transmission output control device, and is a diagram illustrating a method of storing an attenuation control value in an attenuation control table.

FIG. 4 shows a conventional example, and is a block diagram showing a main configuration of a transmission output control device.

FIG. 5 is a block diagram showing another conventional example and showing a configuration of a main part of a transmission output control device.

[Explanation of symbols]

 Reference Signs List 1 APC circuit (transmission output control device) 2 Variable attenuator (transmission power amplification unit) 3 Power amplifier (transmission power amplification unit) 6 Detection circuit (transmission output detection means) 7 A / D converter 8 Digital processing unit (control means) 20) Detected voltage data calculation section 21 Detected voltage data table 22 Comparison section (comparison means) 23 Attenuation amount control table (gain control table) 24 Control section (control means)

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) H04B 1/04 H04B ^7/ 24-7/26 102 H04Q 7/00-7/38

Claims (3)

(57) [Claims] 1. A transmission power amplifier for a transmitting apparatus using a time division multiple access system in which a transmission period for performing transmission and a transmission suspension period for performing no transmission are provided separately, and amplifying a transmission signal with a designated gain. in the transmission power control device comprising a part, in the transmission period with kept constant the gain of the transmission power amplification unit, a control means for controlling the gain to the transmission suspension period, further, the transmission power amplifier Transmission output that detects the transmission output from the unit
Detection means, and a transmission output detected by the transmission output detection means and a desired transmission power.
Comparing means for comparing the transmission output with the transmission output based on the comparison by the comparing means.
The gain of the transmission power amplification unit is adjusted so that the force becomes a desired value.
Control, and the comparing means outputs the corresponding transmission signal during the transmission period.
A transmission that modulates a predetermined bit string whose waveform is predetermined
The transmission signal during the period when the transmission power
Transmission during the transmission period based on the detection result of the signal output detection means
It is important to determine the magnitude relationship between the output and the desired transmission output.
Transmission power control device 2. A gain for controlling a gain of the transmission power amplifier.
A gain control table that stores control values in correspondence with the transmission output.
Comprising a table, said control means, the desired transmission output is specified newly situ
The gain control value stored in the gain control table.
The initial value of the gain of the transmission power amplifier is determined based on the
The transmission output control device according to claim 1, wherein: 3. A period during which the predetermined bit string is transmitted.
Is a period during which the transmission power amplifier transmits a synchronization word.
The transmission output according to claim 1 or 2, wherein
Control device.