JP2000013248A - Transmission output control device - Google Patents

Abstract

(57) [Problem] To improve the quality of call voice and the quality of communication data while simplifying a circuit configuration and software and reducing power consumption. SOLUTION: A high frequency signal is supplied to a power amplifier 3,
When power is amplified and a radio wave is transmitted from the selected antenna 6, a part of the high-frequency signal output from the power amplifier 3 (a part of the control channel whose transmission / reception frequency is determined) is detected by the transmission output detection unit 4. ) Is detected to generate transmission output detection data indicating the transmission output value of the control channel transmitted from the selected antenna 6, and based on the transmission output detection data, the digital processing unit 7 causes the attenuator unit to generate the transmission output detection data. By controlling the attenuation factor of 2, the transmission output value of each communication channel transmitted from the antenna 6 is kept at a designated value.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transmission output control device for controlling the amplification factor of a power amplification unit provided at the last stage of a mobile communication device or the like to keep the power of radio waves transmitted from an antenna constant. About.

[0002]

2. Description of the Related Art In a mobile communication device or the like, an amplification factor of a power amplification unit provided at a final stage of a transmission circuit is maintained in order to maintain the quality of speech voice and data communication while reducing power consumption. The power is controlled so that the electric power value of the radio wave transmitted from the antenna becomes a preset value.

[0005] FIG. 5 is a diagram for automatically controlling the gain of a power amplifying unit provided at the last stage of such a mobile communication device.
FIG. 2 is a block diagram illustrating an example of a transmission output control device having an APC (Auto Power Control) configuration.

The transmission output control device 101 shown in FIG.
Transmission signal generation circuit of mobile communication device (not shown)
An attenuator section 102 which attenuates at a designated attenuation rate while taking in a high-frequency signal (RF signal) output from the
A transmission output detection unit 104 that guides the power-amplified high-frequency signal output from the third unit 3 to the antenna 105, transmits the radio wave, measures the voltage value of the high-frequency signal, and generates transmission output detection data. The digital processing unit 10 controls the attenuator unit 102 based on the transmission output detection data output from the output detection unit 104 to set the power value of the radio wave transmitted from the antenna 105 to a constant value.
And a power amplifier 103 power-amplifies a high-frequency signal output from the transmission signal generation circuit, and transmits a radio wave from an antenna 105. Detect a part of the high-frequency signal supplied to 105,
While generating transmission output detection data indicating a power value of a radio wave transmitted from the antenna 105, based on the transmission output detection data, the digital processing unit 106
By generating attenuation rate control data, the attenuator unit 10
2 to maintain the power value of the radio wave transmitted from the antenna 105 at the designated value.

[0005] The transmission output detection unit 104 takes in a power-amplified high-frequency signal output from the power amplifier 103 and supplies it to an antenna 105.
Directional coupler 107 for branching a part of the high-frequency signal
The high-frequency signal is detected while performing frequency compensation of the high-frequency signal branched by the directional coupler 107, temperature compensation of the circuit, and the like.
A detection circuit 108 for generating a transmission output detection signal indicating the power value of the high-frequency signal output from the
And an A / D converter 109 for performing A / D conversion (analog / digital conversion) on the transmission output detection signal output from the A / D converter to generate transmission output detection data. While taking in the amplified high-frequency signal and supplying it to the antenna 105, a part of the signal is branched, detected and A / D-converted to generate transmission output detection data, which is supplied to the digital processing unit 106. I do.

[0006] The digital processing unit 106 includes a detection voltage table 11 in which set detection voltage data defining the power value of the high-frequency signal output from the power amplifier 103 is registered.
0, a memory circuit 112 having an attenuation control table 111 in which a plurality of attenuation rate control data necessary for controlling the attenuation rate of the attenuator 102 are registered, and a transmission output from the transmission output detector 104. A detection voltage data calculation circuit 113 which takes in the output detection data, obtains a total value or an average value thereof, and generates detection voltage data (measurement detection voltage data) indicating the power value of the high-frequency signal output from the power amplifier 103; A comparison circuit 114 that compares the measured detection voltage data output from the detection voltage data calculation circuit 113 with the set detection voltage data registered in the detection voltage data table 110, and generates deviation data indicating the deviation between them. The deviation data output from the comparison circuit 114 is taken in, and the attenuation amount control table 11 Among the attenuation factor control data registered in, and a CPU circuit 116 having a control circuit 115 for reading the attenuation factor control data corresponding to the difference data.

[0007] The transmission output detection data output from the transmission output detection unit 104 is fetched, the sum or average value thereof is obtained to generate measurement detection voltage data, and the measurement detection voltage data and the detection voltage are obtained. After comparing the detected detection voltage data registered in the data table 110 to generate these differences (deviation data), of the attenuation rate control data registered in the attenuation amount control table 111, The attenuation rate control data corresponding to the deviation data is selected and supplied to the attenuator unit 102.

The attenuator unit 102 includes a latch circuit 117 for receiving and latching new attenuation rate control data every time the digital processing unit 106 outputs new attenuation rate control data.
A D / A conversion circuit 118 that performs D / A conversion (digital / analog conversion) on the attenuation rate control data latched by the latch circuit 117 to generate an attenuation rate control signal;
The input high-frequency signal is attenuated at the attenuation rate indicated by the attenuation rate control signal output from the / A conversion circuit 118,
A variable attenuator 119 for supplying to the power amplifier 103. Each time a new attenuation rate control data is output from the digital processing unit 106, the data is latched by the latch circuit 117 to perform D / A conversion. The circuit 118 performs D / A conversion of the attenuation rate control data latched by the latch circuit 117, controls the attenuation rate of the variable attenuator 119 based on the attenuation rate control signal obtained by the D / A conversion, and generates the transmission signal. The high-frequency signal output from the circuit is attenuated and supplied to the power amplifier 103.

[0009]

By the way, the above-mentioned conventional transmission output control device 101 has the following problems.

First, the detection circuit 108 performs temperature compensation and frequency compensation when measuring the power value of the high-frequency signal output from the power amplifier 103, so that the configuration of the detection circuit 108 becomes complicated. There was a problem that hardware cost would be high.

Therefore, a method of performing only temperature compensation in a detection circuit and performing frequency compensation based on set detection voltage data registered in a detection voltage data table has been studied. In addition to an increase in the storage capacity of the device, there is a problem that the software becomes complicated and the manufacturing cost of the entire device increases.

Further, in the conventional transmission output control apparatus 101, a multi-branch antenna is used as the antenna 105, and communication is performed by selecting an antenna having a good transmission / reception state from among a plurality of antennas constituting the multi-branch antenna. When performing the diversity control, since the electrical characteristics between each antenna constituting the multi-branch antenna and the directional coupler 107 are different for each antenna, the power value of the radio wave transmitted from each antenna is changed. There was a problem that it could not be optimized.

SUMMARY OF THE INVENTION The present invention has been made in view of the above, and omits frequency compensation processing of a detection circuit, simplifies the circuit configuration by that amount, and reduces the processing load of a detection signal. It is possible to control the transmission output of the radio wave transmitted from the antenna to a constant value while reducing the load on the device, thereby improving the quality of call voice and the quality of communication data while reducing power consumption. The purpose is to obtain a transmission output control device.

In addition, the frequency compensation processing of the detection circuit is omitted, the circuit configuration is simplified accordingly, the processing load of the detection signal is reduced, and the load on the CPU is reduced, and each signal transmitted from the antenna is reduced. An object of the present invention is to provide a transmission power control device capable of controlling the radio wave transmission output of a communication channel to a constant value, thereby improving the quality of communication voice and communication data while reducing power consumption. I have.

Further, the frequency compensation processing of the detection circuit is omitted, the circuit configuration is simplified accordingly, the amount of reference data is reduced, the amount of hardware is reduced, and the processing load of the detection signal is further reduced. To reduce CP
It is possible to control the radio transmission output of each communication channel transmitted from the antenna to a constant value while reducing the load on U, thereby improving the quality of communication voice and communication data while reducing power consumption. It is an object of the present invention to obtain a transmission output control device capable of causing the transmission output control device to perform the control.

Further, the frequency compensation processing of the detection circuit is omitted, the circuit configuration is simplified accordingly, the processing load of the detection signal is reduced, and the load on the CPU is reduced, so that the multi-branch antenna is configured. A transmission output control device capable of controlling the transmission output of radio waves transmitted from each antenna to a constant value, thereby further improving the quality of call voice and the quality of communication data while reducing power consumption. The purpose is to get.

Further, the frequency compensation processing of the detection circuit is omitted, the circuit configuration is simplified accordingly, the processing load of the detection signal is reduced, and the load on the CPU is reduced, so that the multi-branch antenna is configured. The transmission output that can control the radio wave transmission output of each communication channel transmitted from each antenna to a constant value, thereby further improving the quality of communication voice and communication data while reducing power consumption. The purpose is to obtain a control device.

Further, the frequency compensation processing of the detection circuit is omitted, the circuit configuration is simplified accordingly, the capacity of reference data is reduced, the amount of hardware is reduced, and the processing load of the detection signal is further reduced. To reduce CP
While reducing the load on U, the radio wave transmission output of each communication channel transmitted from each antenna constituting the multi-branch antenna can be controlled to a constant value, thereby reducing the power consumption and the quality of the communication voice. It is another object of the present invention to provide a transmission output control device capable of further improving the quality of communication data.

In addition, the transmission power control system can be simplified to reduce the load on the CPU, and the transmission quality of each communication channel can be significantly improved while preventing oscillation of the transmission output control system. The purpose is to obtain an output control device.

In a transient period such as immediately after the start of transmission, the transmission output of the radio wave transmitted from the antenna is adjusted in a short period, so that the communication quality can be improved at an early stage, and after the transmission output is stabilized. , By adjusting the transmission output of the radio wave transmitted from the antenna in a long cycle,
It is an object of the present invention to obtain a transmission output control device capable of reducing power consumption.

[0021]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention provides a method for transmitting and receiving information on each communication channel using a control channel defined by the TDMA-TDD system. A transmission output control device, which is provided in a wireless communication device that performs a call using a channel and maintains a constant power value of a radio wave transmitted from the wireless communication device, controls a radio wave transmission output of a control channel transmitted from an antenna. A transmission output detection unit to be measured, a measurement result obtained by the transmission output detection unit is captured and stored, and each measurement result stored at a specified cycle is processed to transmit a radio wave transmitted from the antenna. An adjustment amount calculation unit that calculates an adjustment amount necessary to keep the power value of the constant value,
A signal value adjustment unit that adjusts a power value of a radio wave transmitted from the antenna based on the adjustment amount obtained by the adjustment amount calculation unit.

According to the present invention, a radio communication apparatus which performs communication using each communication channel while transmitting and receiving information regarding each communication channel using the control channel defined by the TDMA-TDD system is provided. Provided, in the transmission output control device that keeps the power value of the radio wave transmitted from this wireless communication device constant, by the transmission output detection unit,
While measuring the radio wave transmission output of the control channel transmitted from the antenna, the adjustment amount calculation unit captures and stores the measurement result obtained by the transmission output detection unit, and stores the measurement result at the specified cycle. By processing the measurement results, calculate the amount of adjustment required to keep the power value of the radio wave transmitted from the antenna at a constant value, based on this amount of adjustment, control the amount of adjustment of the signal value adjustment unit, By adjusting the power value of the radio wave transmitted from the antenna, the frequency compensation processing of the detection circuit is omitted, the circuit configuration is simplified accordingly, the processing load of the detection signal is reduced, and the CPU load is reduced. , While controlling the transmission output of the radio wave transmitted from the antenna to a constant value, thereby improving the quality of call voice and the quality of communication data while reducing power consumption.

In the next invention, when the adjustment amount is obtained from each measurement result obtained by the transmission output detection unit by the adjustment amount calculation unit, correction amount data corresponding to the frequency of each communication channel is used. It is characterized in that an adjustment amount for each communication channel is obtained.

According to the present invention, when the adjustment amount calculation section obtains the adjustment amount from each measurement result obtained by the transmission output detection section, it uses correction value data corresponding to the frequency of each communication channel. By calculating the adjustment amount for each communication channel, the frequency compensation processing of the detection circuit is omitted, the circuit configuration is simplified accordingly, the processing load of the detection signal is reduced, and the load on the CPU is reduced. The radio wave transmission output of each communication channel transmitted from the antenna is controlled to a constant value, thereby improving the quality of communication voice and the quality of communication data while reducing power consumption.

In the next invention, the correction value data is obtained by measuring the intensity of radio waves transmitted from the antenna for each frequency used in each communication channel to obtain an output deviation, and calculating each of these output deviations. It is characterized in that it is data compiled for each of a plurality of frequency bands.

According to the present invention, as the correction value data, for each frequency used in each communication channel, the intensity of the radio wave transmitted from the antenna is measured to determine the output deviation, and these output deviations are obtained. By using data obtained by summarizing the data for each of a plurality of frequency bands, the frequency compensation processing of the detection circuit can be omitted, the circuit configuration can be simplified accordingly, and the capacity of the reference data can be reduced. By reducing the amount of processing and the processing load of the detection signal, and reducing the load on the CPU, the radio wave transmission output of each communication channel transmitted from the antenna is controlled to a constant value, thereby reducing power consumption. While improving the quality of call voice and the quality of communication data.

The next invention uses one or more antennas and one or more antennas among a plurality of antennas while transmitting and receiving information about each communication channel using a control channel defined by the TDMA-TDD system. Using a communication channel, provided in a wireless communication device that performs a call, in a transmission output control device that keeps the power value of the radio wave transmitted from this wireless communication device constant, among the above-mentioned antennas, specified as a transmission and reception antenna A transmission output detection unit that measures the radio wave transmission output of the control channel transmitted from the antenna, and captures and stores the measurement results obtained by the transmission output detection unit, and stores the measurement results at a specified cycle. The measurement result is processed taking into account the characteristics of the antenna specified as the transmitting and receiving antenna, and the power value of the radio wave transmitted from this antenna is reduced. An adjustment amount calculation unit that calculates an adjustment amount necessary to keep the value, and based on the adjustment amount obtained by the adjustment amount calculation unit, adjusts a power value of a radio wave transmitted from the antenna designated as a transmission / reception antenna. And a signal value adjusting unit that performs the operation.

According to the present invention, one of at least one of the plurality of antennas and one or more of the plurality of antennas are transmitted and received while transmitting and receiving information on each communication channel using the control channel defined by the TDMA-TDD system. In a transmission output control device provided in a wireless communication device for making a call using the communication channel of the communication device and maintaining a constant power value of radio waves transmitted from the wireless communication device,
While measuring the radio wave transmission output of the control channel transmitted from the antenna designated as the transmission / reception antenna among the antennas, the adjustment amount calculation unit captures and stores the measurement result obtained by the transmission output detection unit. With
Performs processing at the specified period, taking into account the characteristics of the antenna specified as the transmitting and receiving antenna, for each stored measurement result, and is necessary to keep the power value of the radio wave transmitted from this antenna constant. Calculating the amount of adjustment, based on the amount of adjustment, controlling the amount of adjustment of the signal value adjustment unit, by adjusting the power value of the radio wave transmitted from the antenna specified as the transmitting and receiving antenna, the detection circuit Omitting the frequency compensation processing, simplifying the circuit configuration by that much, reducing the processing load of the detection signal, and reducing the load on the CPU while reducing the radio wave transmitted from each antenna constituting the multi-branch antenna. The transmission output is controlled to a constant value, thereby further improving the quality of the call voice and the quality of the communication data while reducing the power consumption.

[0029] In the next invention, when the adjustment amount calculation unit obtains the adjustment amount from each measurement result obtained by the transmission output detection unit, the adjustment amount calculation unit specifies the frequency of the communication channel for actually talking and the transmission / reception antenna. It is characterized in that an adjustment amount for an actually used communication channel is obtained using correction value data corresponding to the characteristics of the antenna.

According to the present invention, when the adjustment amount calculation unit obtains the adjustment amount from each measurement result obtained by the transmission output detection unit, the adjustment amount calculation unit specifies the frequency of the communication channel for actually talking and the transmission / reception antenna. By using the correction value data corresponding to the characteristics of the antenna and calculating the adjustment amount for the actually used communication channel, the frequency compensation processing of the detection circuit is omitted, and the circuit configuration is simplified accordingly. , By reducing the processing load of the detected signal,
While reducing the load on the PU, the radio wave transmission output of each communication channel transmitted from each antenna constituting the multi-branch antenna is controlled to a constant value, thereby reducing the power consumption while maintaining the quality of the communication voice and the communication data. To further improve the quality.

According to the next invention, the correction value data is obtained by measuring, for each frequency of each communication channel and each antenna, an output deviation obtained by measuring the radio wave intensity of each communication channel transmitted from each antenna. It is characterized in that it is data obtained by summing up these output deviations for each of a plurality of frequency bands.

According to the present invention, as the correction value data, for each frequency of each communication channel, for each antenna,
The output deviation obtained by measuring the radio field intensity of each communication channel transmitted from each of the antennas is obtained, and by using data obtained by summing up these output deviations for a plurality of frequency bands, the frequency of the detection circuit The compensation process is omitted, the circuit configuration is simplified accordingly, the amount of reference data is reduced, the amount of hardware is reduced, and the processing load of the detected signal is reduced, thereby reducing the load on the CPU. While lightening, the radio wave transmission output of each communication channel transmitted from each antenna configuring the multi-branch antenna is controlled to a constant value, thereby reducing power consumption,
Further improve the quality of call voice and communication data.

In the next invention, the adjustment amount calculation unit averages a comparison result between the measurement result obtained by the transmission output detection unit and a desired transmission output to obtain a power value of a radio wave transmitted from the antenna. It is characterized in that an adjustment amount necessary to keep the constant at a constant value is calculated.

According to the present invention, the adjustment amount calculation unit averages a comparison result between the measurement result obtained by the transmission output detection unit and a desired transmission output to obtain the power of the radio wave transmitted from the antenna. By calculating the amount of adjustment required to keep the value at a constant value, the configuration of the transmission output control system can be simplified, the load on the CPU can be reduced, and oscillation of the transmission output control system can be prevented. Significantly improve channel call quality.

The next invention is characterized in that the adjustment amount calculation unit sets each measurement result output from the transmission output detection unit at a relatively short cycle until the transmission output of the radio wave transmitted from the antenna is stabilized. After the transmission output of the radio wave transmitted from the antenna is stabilized, the adjustment amount is obtained from each measurement result output from the transmission output detection unit at a relatively long cycle.

According to the present invention, each measurement output from the transmission output detection unit at a relatively short cycle until the transmission output of the radio wave transmitted from the antenna is stabilized by the adjustment amount calculation unit. After obtaining the adjustment amount from the result, and after the transmission output of the radio wave transmitted from the antenna is stabilized, the adjustment amount is obtained from each measurement result output from the transmission output detection unit in a relatively long cycle, thereby starting transmission. In a transitional period such as immediately after, the transmission output of the radio wave transmitted from the antenna is adjusted in a short cycle to improve the communication quality early, and after the transmission output is stabilized, the transmission is transmitted from the antenna in a long cycle. Adjust the transmission output of the radio wave, and
Load and power consumption.

[0037]

Embodiments of a transmission output control device according to the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a block diagram showing one embodiment of the transmission output control device according to the present invention. The transmission output control device 1 shown in this figure is a TDMA-TDD (Time Divis
A high-frequency signal (RF signal) output from a transmission signal generation circuit (not shown) of a mobile communication device that communicates with a wireless fixed station (not shown) in an ionMultiple Access-Time Division Duplexing system. While attenuating the high-frequency signal at a specified attenuation rate,
While selecting one of the attenuator unit 2 to be supplied to the power amplifier 3 and each of the antennas 6 constituting the multi-branch antenna 5, the high-frequency signal with the power amplified from the power amplifier 3 is guided to the selected antenna 6. A transmission output detection unit 4 for transmitting radio waves and measuring a voltage value of the high-frequency signal to generate transmission output detection data;
A digital processing unit 7 that controls the attenuator unit 2 based on the transmission output detection data output from the transmission output detection unit 4 so that the power value of radio waves transmitted from any of the antennas 6 becomes a constant value. And a control section 8 for controlling the digital processing section 7 and the transmission output detection section 4.

While the control unit 8 controls the transmission output detection unit 4 and the digital processing unit 7, the power amplifier 3 amplifies the high-frequency signal output from the transmission signal generation circuit by power, and A radio wave is transmitted from the selected antenna 6, and a part of a high-frequency signal (a part of a control channel for which a transmission / reception frequency is determined) is transmitted by the transmission output detection unit 4. Detection is performed to generate transmission output detection data indicating a power value of a radio wave transmitted from the selected one of the antennas 6, and the digital processing unit 7 attenuates the transmission output detection data based on the transmission output detection data. Rate control data is generated to control the attenuation rate of the attenuator unit 2 so that each of the communication channels transmitted from the selected antenna 6 is transmitted. Keep the specified value signal output value.

The control unit 8 sets the first slot corresponding to the control channel as shown in FIG. 2B among the time slots used in the TDMA-TDD system as shown in FIG. A comparison execution timing signal generation circuit 9 for generating a comparison execution timing signal in synchronization with the switching timing of each time slot as shown in FIG. An antenna selection signal generation circuit 10 for instructing switching, and FIG.
(D), a frequency setting signal generation circuit 1 that generates a frequency setting signal in synchronization with the switching timing of each time slot and specifies a frequency used by each antenna 6
1 and the number of comparison execution timing signals output from the comparison execution timing signal generating circuit 9 becomes n (where n is an integer) as shown in FIGS. An average value update timing signal generation circuit 12 for generating a value update timing signal and instructing the update of the average value is provided.

When the mobile communication device communicates with the fixed radio station, an antenna selection signal is generated in synchronization with each time slot, and each transmission output detection unit 4 is provided with a multi-branch antenna 5. In addition to causing any one of the antennas 6 to be selected, a frequency setting signal is generated, and the digital processing unit 7 is notified of the frequency setting value used for transmission. Further, in parallel with these operations, of the time slots, a comparison execution timing signal is generated in synchronization with the first time slot serving as a control channel, and the transmission output detection unit is sent to the digital processing unit 7. 4 is compared with the preset transmission output reference value data, and an average value update timing signal is generated every time the number of times of this comparison operation becomes n. Then, the digital processing unit 7 averages the comparison result and updates the attenuation rate control data up to that time.

Further, the transmission output detection section 4 selects the antenna 6 specified by the antenna selection signal output from the control section 8 among the antennas 6 constituting the multi-branch antenna 5, and A power-amplified high-frequency signal output from the amplifier 3 is fetched and supplied to the selected antenna 6, and a radio signal received by the selected antenna 6 is fetched and received by a receiving circuit. (Not shown) and a power-amplified high-frequency signal output from the power amplifier 3 to be supplied to the antenna switching circuit 13 and detect the high-frequency signal while performing temperature compensation and the like of the circuit. A detection circuit 14 for generating a transmission output detection signal indicating a power value of a high-frequency signal output from the power amplifier 3;
And an A / D conversion circuit 15 for performing A / D conversion (analog / digital conversion) of the transmission output detection signal output from the control unit 4 to generate transmission output detection data.
When one of the antennas 6 constituting the multi-branch antenna 5 is selected based on the antenna selection signal output from the power amplifier 3 and a power-amplified high-frequency signal is output from the power amplifier 3, this is selected. In addition, the high-frequency signal is detected and A / D converted to generate transmission output detection data, which is supplied to the digital processing unit 7.

The digital processing unit 7 controls the power of the high-frequency signal output from the power amplifier 3 for each antenna 6 based on each measurement value measured at the adjustment stage before the mobile communication device is shipped from the factory. A plurality of transmission output reference value data defining values are registered, and a transmission output reference value table 16 for selecting transmission output reference value data corresponding to an antenna selection signal output from the control unit 8 and outputting the same is provided. As shown in FIG. 4, each antenna 6 based on each measurement value measured in the adjustment stage before the mobile communication device is shipped from the factory.
A plurality of correction value data necessary for controlling the attenuation rate of the attenuator unit 2 are registered for each frequency of each communication channel, and designated by an antenna selection signal and a frequency setting signal output from the control unit 8. A memory circuit 18 having a correction value table 17 for selecting and outputting correction value data corresponding to the selected antenna number and frequency setting value.

Further, each time the control unit 8 outputs a comparison execution timing signal, the digital processing unit 7
It takes in the transmission output detection data output from the transmission output detection unit 4 and compares the transmission output detection data with the transmission output reference value data output from the transmission output reference value table 16 based on the comparison result. , A comparison circuit 19 for generating either a “positive signal” or a “negative signal”;
The “positive signal” or “negative signal” output from the comparison circuit 19 is taken in and stored, and the “positive signal” or “memory” stored every time the average value update timing signal is output from the control unit 8. By averaging the “negative signal” and based on the reference transmission power set for the control channel,
An averaging circuit 20 that generates attenuation rate control data required to correct the deviation amount of the transmission power value of the control channel;
The attenuation rate control data output from the averaging circuit 20 and the correction value data output from the correction value table 17 are added to correct attenuation rate control data (attenuation rate control data used in each communication channel). Circuit 2 for generating
1 is provided.

Each time the antenna selection signal and the transmission output reference value data and the correction value data corresponding to the frequency setting signal output from the control unit 8 are selected, the comparison execution timing signal is output from the control unit 8. Then, the transmission output detection data output from the transmission output detection unit 4 is compared with the selected transmission output reference value data to generate a “positive signal” or a “negative signal” and store it. While
Each time the control unit 8 outputs the average value update timing signal, the stored “positive signal” or “negative signal” is averaged to generate attenuation rate control data and to select the selected correction value. Based on the data, the attenuation rate control data is corrected and supplied to the attenuator unit 2.

The attenuator unit 2 includes a latch circuit 23 which takes in and latches new attenuation rate control data every time new digital attenuation rate control data is output from the digital processing unit 7, and an attenuation rate control latched by the latch circuit 23. D / A data
A D / A conversion circuit 24 for converting (digital / analog conversion) to generate an attenuation rate control signal;
4 is the attenuation rate indicated by the attenuation rate control signal output from
The input high-frequency signal is attenuated and the power amplifier 3
And a variable attenuator 25 that supplies the new attenuation rate control data to the digital processing unit 7 each time the new attenuation rate control data is output.
A / A conversion circuit 24 performs D / A conversion of the attenuation rate control data latched by the latch circuit 23, and based on the attenuation rate control signal obtained thereby, the variable attenuator 2
The high frequency signal output from the transmission signal generation circuit is attenuated by controlling the attenuation factor of the transmission signal generator 5 and supplied to the power amplifier 3.

As described above, in this embodiment, the high-frequency signal output from the transmission signal generation circuit is supplied to the power amplifier 3 to be power-amplified, and the radio wave is transmitted from the selected one of the antennas 6. Is transmitted, the transmission output detection unit 4 detects a part of the high-frequency signal output from the power amplifier 3 (a part of the control channel for which the transmission / reception frequency is determined) and detects the selected antenna 6. , Generating transmission output detection data indicating the transmission output value of the control channel transmitted from the GW, and based on the transmission output detection data, the digital processing unit 7 generates the attenuation rate control data, thereby reducing the attenuation of the attenuator unit 2. Rate is controlled so that the transmission output value of each communication channel transmitted from the antenna 6 is maintained at a specified value. 4, when detecting a high-frequency signal, the frequency compensation processing can be omitted, the circuit configuration can be simplified accordingly, and the transmission output reference value data registered in the transmission output reference value table 16 can be saved. Control the transmission output of the radio wave transmitted from the antenna 6 to a constant value while reducing the number of the transmission power detection data to simplify the processing for determining the level of the transmission output detection data and reducing the load on the CPU circuit 22. As a result, the quality of call voice and the quality of communication data can be improved while reducing power consumption.

In this embodiment, the transmission output detection data output from the transmission output detection unit 4 is compared with the transmission output reference value data for each antenna registered in the transmission output reference value table 16. After averaging the comparison results to generate attenuation rate control data necessary to correct the transmission output of the control channel, the correction value for each antenna registered in the correction value table 17 and for each frequency of each communication channel Since the data is used to correct the attenuation rate control data and to generate attenuation rate control data for correcting the transmission output of the communication channel transmitted from the antenna 6,
The radio wave transmission output of each communication channel transmitted from the antenna 6 can be controlled to a constant value, thereby reducing the power consumption and making the communication voice available regardless of which communication channel is used for communication and data transmission. And the quality of communication data can be improved.

Further, in this embodiment, the multi-branch antenna 5 composed of a plurality of antennas 6 is used to transmit and receive radio waves, so that each of these antennas 6 can be diversity-controlled. As a result, the quality of call voice and the quality of communication data can be improved as compared with a conventional mobile communication device using only one antenna.

In this embodiment, the CPU circuit 2
The transmission output detection data output from the transmission output detection unit 4 is compared with the transmission output reference value data output from the transmission output reference value table 16 by a comparison circuit 19 provided in Since the value is converted to a value to output either the “positive signal” or the “negative signal”, the processing of the CPU circuit 22 can be simplified, the load can be reduced, and the digital processing unit 7 is included. Oscillation of the transmission output control system can be prevented.

In the above-described embodiment, correction value data corresponding to all frequencies used in each communication channel is created for each antenna 6 and registered in the correction value table 17. However, all frequencies used in each communication channel are divided into frequency bands, correction value data is created for each antenna and each frequency band, and registered in the correction value table 17. Is also good.

By doing so, the number of correction value data registered in the correction value table 17 is reduced, the capacity of the memory circuit 18 is reduced, and the attenuation rate control data output from the averaging circuit 20 is reduced. It is possible to control the radio wave transmission output of each communication channel transmitted from the antenna 6 to a constant value while reducing the processing load when compensating the communication channel, thereby reducing the power consumption and using any communication channel. Call and data transmission,
The quality of call voice and the quality of communication data can be improved.

Further, in the above-described embodiment, the average value update timing signal is output from the average value update timing signal generation circuit 12 of the control section 8 at a predetermined period, and the averaging of the CPU circuit 22 is performed. Although the circuit 20 is caused to generate the attenuation rate control data, the average value update timing signal generation circuit 12 outputs the average value update timing signal in a short period in a transient period such as immediately after the start of transmission, and the transmission output is reduced. After stabilization, the average value update timing signal generation circuit 12 may output the average value update timing signal in a long cycle.

By doing so, the transmission output of the radio wave transmitted from the antenna 6 can be adjusted in a short period in a transient period such as immediately after the start of transmission, so that the communication quality can be improved at an early stage. After the transmission output is stabilized, the transmission output of the radio wave transmitted from the antenna 6 can be adjusted in a long cycle to reduce the load on the CPU circuit 22 and the power consumption.

[0055]

As described above, in the transmission output control apparatus according to the present invention, the frequency compensation processing of the detection circuit is omitted, the circuit configuration is simplified accordingly, and the processing load of the detection signal is reduced. Thus, it is possible to control the transmission output of the radio wave transmitted from the antenna to a constant value while reducing the load on the CPU, thereby improving the quality of call voice and the quality of communication data while reducing power consumption. be able to.

In the transmission output control device according to the next invention,
Omitting the frequency compensation processing of the detection circuit, simplifying the circuit configuration by that amount, reducing the processing load of the detection signal, and reducing the load on the CPU, while transmitting the radio wave of each communication channel transmitted from the antenna while reducing the CPU load. The output can be controlled to a constant value, thereby improving the quality of call voice and the quality of communication data while reducing power consumption.

In the transmission output control device according to the next invention,
Omitting the frequency compensation processing of the detection circuit, simplifying the circuit configuration by that much, reducing the amount of reference data, reducing the amount of hardware, and further reducing the processing load of the detection signal, The radio wave transmission output of each communication channel transmitted from the antenna can be controlled to a constant value while reducing the load on the CPU, thereby improving the quality of communication voice and communication data while reducing power consumption. Can be done.

In the transmission output control device according to the next invention,
Omitting the frequency compensation processing of the detection circuit, simplifying the circuit configuration by that much, reducing the processing load of the detection signal, and reducing the load on the CPU, while transmitting the signals from each antenna constituting the multi-branch antenna. It is possible to control the transmission output of the radio wave to a constant value, thereby further improving the quality of the call voice and the quality of the communication data while reducing the power consumption.

In the transmission output control device according to the next invention,
Omitting the frequency compensation processing of the detection circuit, simplifying the circuit configuration by that much, reducing the processing load of the detection signal, and reducing the load on the CPU, while transmitting the signals from each antenna constituting the multi-branch antenna. Radio transmission power of each communication channel can be controlled to a constant value, thereby reducing power consumption,
The quality of communication data can be further improved.

In the transmission output control device according to the next invention,
Omitting the frequency compensation processing of the detection circuit, simplifying the circuit configuration by that much, reducing the amount of reference data, reducing the amount of hardware, and further reducing the processing load of the detection signal, It is possible to control the radio wave transmission output of each communication channel transmitted from each antenna constituting the multi-branch antenna to a constant value while reducing the load on the CPU, thereby reducing the power consumption and the quality of the communication voice. Thus, the quality of communication data can be further improved.

In the transmission output control device according to the next invention,
The configuration of the transmission output control system can be simplified, the load on the CPU can be reduced, and the communication quality of each communication channel can be significantly improved while preventing oscillation of the transmission output control system.

In the transmission output control device according to the next invention,
In a transitional period such as immediately after the start of transmission, the transmission output of the radio wave transmitted from the antenna can be adjusted in a short period to improve the communication quality at an early stage. By adjusting the transmission output of the radio wave transmitted from the antenna, the load on the CPU and the power consumption can be reduced.

[Brief description of the drawings]

FIG. 1 is a block diagram showing one embodiment of a transmission output control device according to the present invention.

FIG. 2 is a timing chart showing an operation example of the transmission output control device shown in FIG.

FIG. 3 is a timing chart showing an operation example of the transmission output control device shown in FIG. 1;

FIG. 4 is a schematic diagram showing a detailed configuration example of a correction value table shown in FIG. 1;

FIG. 5 is a block diagram showing an example of a conventionally known transmission output control device.

[Explanation of symbols]

REFERENCE SIGNS LIST 1 transmission output control device, 2 attenuator unit (signal value adjustment unit), 3 power amplifier, 4 transmission output detection unit, 5 multi-branch antenna, 6 antenna, 7 digital processing unit (adjustment amount calculation unit), 8 control unit, 9 Comparison execution timing signal generation circuit, 10 antenna selection signal generation circuit, 1
1 frequency setting signal generation circuit, 12 average value update timing signal generation circuit, 13 antenna switching circuit, 14 detection circuit, 15 A / D conversion circuit, 16 transmission output reference value table, 17 correction value table, 18 memory circuit,
19 comparison circuit, 20 averaging circuit, 21 addition circuit,
22 CPU circuit, 23 latch circuit, 24 D / A conversion circuit, 25 variable attenuator.

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 5J029 AA01 BA05 CA09 CA11 EA02 FA01 5K028 BB06 HH02 PP11 5K060 BB00 BB07 CC04 CC12 DD04 FF09 HH06 HH09 JJ21 KK01 KK04 LL01 LL22 LL24 5K067 AA23 AE03 KK04 KK

Claims (8)

[Claims] 1. A wireless communication device which communicates using each communication channel while transmitting and receiving information related to each communication channel using a control channel defined by the TDMA-TDD system. A transmission output control unit that maintains a constant power value of a radio wave transmitted from a wireless communication device, a transmission output detection unit that measures a radio transmission output of a control channel transmitted from an antenna, and a transmission output detection unit that obtains the transmission output detection unit. While taking and storing the measurement results, each measurement result stored at the designated cycle is processed to calculate an adjustment amount necessary to keep the power value of the radio wave transmitted from the antenna at a constant value. An adjustment amount calculation unit; and a signal value adjustment unit that adjusts a power value of a radio wave transmitted from the antenna based on the adjustment amount obtained by the adjustment amount calculation unit. Transmission output control apparatus according to claim. 2. The adjustment amount calculation unit uses correction value data corresponding to a frequency of each communication channel when calculating an adjustment amount from each measurement result obtained by the transmission output detection unit.
2. The transmission output control device according to claim 1, wherein an adjustment amount for each communication channel is obtained. 3. The correction value data is obtained by, for each frequency used in each communication channel, measuring the intensity of a radio wave transmitted from the antenna to obtain an output deviation. 3. The transmission output control device according to claim 2, wherein the transmission output control device is data compiled for each band. 4. While transmitting and receiving information on each communication channel using a control channel defined by the TDMA-TDD system, one or more antennas and one or more communication channels of a plurality of antennas are exchanged. Use, provided in a wireless communication device that performs a call, in a transmission output control device that keeps the power value of the radio wave transmitted from this wireless communication device constant, from among the antennas, the antenna specified as the transmission and reception antenna A transmission output detection unit that measures the radio wave transmission output of the control channel to be transmitted; a measurement result obtained by the transmission output detection unit is fetched and stored; On the other hand, by performing processing taking into account the characteristics of the antenna specified as the transmitting and receiving antenna, the power value of the radio wave transmitted from this antenna is maintained at a constant value. An adjustment amount calculation unit for calculating a necessary adjustment amount; and a signal value adjustment unit for adjusting a power value of a radio wave transmitted from the antenna designated as a transmission / reception antenna based on the adjustment amount obtained by the adjustment amount calculation unit. A transmission output control device, comprising: 5. The adjustment amount calculation unit, when obtaining an adjustment amount from each measurement result obtained by the transmission output detection unit, determines a frequency of a communication channel for actually talking and a characteristic of an antenna designated as a transmission / reception antenna. 5. The transmission output control device according to claim 4, wherein an adjustment amount for a communication channel actually used is obtained using the correction value data corresponding to the above. 6. The correction value data is obtained for each frequency of each communication channel, for each of the antennas, and for an output deviation obtained by measuring the radio field intensity of each communication channel transmitted from each of the antennas. 6. The transmission output control device according to claim 5, wherein each output deviation is data obtained by summarizing the output deviation for each of a plurality of frequency bands. 7. The adjustment amount calculation unit averages a comparison result between the measurement result obtained by the transmission output detection unit and a desired transmission output to set a power value of a radio wave transmitted from the antenna to a constant value. The transmission output control device according to any one of claims 1 to 6, wherein an adjustment amount necessary to maintain the transmission power is calculated. 8. The adjustment amount calculation unit calculates the adjustment amount from each measurement result output from the transmission output detection unit in a relatively short cycle until the transmission output of the radio wave transmitted from the antenna is stabilized. And calculating the adjustment amount from each measurement result output from the transmission output detection unit in a relatively long cycle after the transmission output of the radio wave transmitted from the antenna is stabilized. 8. The transmission output control device according to any one of 7.