JP2003133869A - Synthesizing type power amplifier - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a synthesizing type power amplifier wherein phase adjustment before installation is made unnecessary and effective power synthesizing is maintained against temperature change and change with time after installation. SOLUTION: This synthesizing type power amplifier is provided with a distributor 1 which distributes an input signal in two systems, an amplifier 2 for amplifying the input signals distributed by the distributor 1, and a synthesizer 3 for synthesizing the signals amplified by the amplifier 2. The synthesizing type power amplifier is also provided with a variable phase shifter 11 which makes phase of output of the amplifier 2 variable, a wave detector 12 which detects a power absorbed by a terminater 5 of a system in which the variable phase shifter 11 is arranged, and a control circuit 13 which so automatically controls phase of the variable phase shifter 11 that power detected by the wave detector 12 is minimized.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a combined power amplifier used in a fixed station (base station) for mobile communication, terrestrial microwave communication, satellite communication, or the like.

[0002]

2. Description of the Related Art FIG. 4 is a circuit diagram showing a conventional combined type power amplifier. In the figure, 1 is a distributor for distributing an input signal, and 2 is an amplifier for amplifying an input signal distributed by a distributor 1. 3 is a combiner for combining the signals amplified by the amplifier 2 and 4 is an amplifier 2 and a combiner 3
A circulator 5 provided between them is a circulator 4
Is a terminal unit that absorbs the reflected power from the combiner 3.

Next, the operation will be described. Since an extremely large output power is required for a base station amplifier for digital communication, it is necessary to use a combined power amplifier that combines a plurality of amplifiers in parallel to obtain a desired power. Figure 4
Shows such a combined power amplifier, the distributor 1 distributes the input signal, and the amplifier 2 amplifies the input signal distributed by the distributor 1, respectively. The amplified signals pass through the circulator 4, are combined by the combiner 3 and are output. Since the amplifier 2 has variations in phase and amplitude for each individual, the difference power of the vector is reflected from the combiner 3, passes through the circulator 4, and is absorbed by the terminator 5. The power absorbed by this terminator 5 becomes a loss. In order to amplify the power efficiently,
The phases and amplitudes of the amplifiers 2 must be matched. Therefore, conventionally, the amplifier 2 has been installed in advance so that the phase and the amplitude thereof have the same phase and the same amplitude.

[0004]

Since the conventional combined type power amplifier is constructed as described above, an active element such as a transistor is used inside the amplifier 2, so that the temperature change and the secular change may occur. Causes the phase and amplitude to change. Therefore, it was difficult to maintain the optimum phase and amplitude even after installation. Further, there is a problem that it takes time to adjust the plurality of amplifiers 2 to have the same phase and the same amplitude.

The present invention has been made in order to solve the above-mentioned problems, and eliminates the need for adjusting the phase or amplitude before installation, and also provides an efficient power supply against changes in temperature and aging even after installation. It is an object to obtain a combined power amplifier that maintains the combination.

[0006]

SUMMARY OF THE INVENTION A combined power amplifier according to the present invention is a power absorbed by a variable phase shifter for varying the phase of the output of the amplifier and a termination unit of a system provided with the variable phase shifter. And a phase controller for automatically controlling the phase of the variable phase shifter so that the power detected by the detector is minimized.

The combined power amplifier according to the present invention comprises a variable attenuator for varying the amplitude of the output of the amplifier, a detector for detecting the power absorbed by the terminator of the system provided with the variable attenuator, and a detector. And an amplitude controller for automatically controlling the amplitude of the variable attenuator so that the electric power detected by the detector is minimized.

The combined power amplifier according to the present invention comprises a vector adjuster for varying the phase and amplitude of the output of the amplifier, and a detector for detecting the power absorbed by the terminator of the system provided with the vector adjuster. A vector controller for automatically controlling the phase and amplitude of the vector adjuster so that the electric power detected by the detector is minimized.

[0009]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described below. Embodiment 1. 1 is a circuit diagram showing a combined type power amplifier according to Embodiment 1 of the present invention. In the figure, 1 is a distributor for distributing an input signal, and 2 is an amplifier for amplifying an input signal distributed by a distributor 1. Amplifier 3 is amplifier 2
The synthesizers for synthesizing the signals respectively amplified by 4 are circulators provided between the amplifier 2 and the synthesizer 3, and 5 is a terminating device that is connected to the circulator 4 and absorbs the reflected power from the synthesizer 3. . Reference numeral 11 is a variable phase shifter provided between the distributor 1 and the amplifier 2 for varying the phase of the output of the amplifier 2, 12 is a wave detector for detecting the power absorbed by the terminator 5, and 13 is a wave detected by the wave detector 12. It is a control circuit (phase controller) that automatically controls the phase of the variable phase shifter 11 so that the applied power is minimized.

Next, the operation will be described. The distributor 1 is
The input signal is distributed, and the amplifier 2 amplifies the input signal distributed by the distributor 1. The amplified signals pass through the circulator 4, are combined by the combiner 3 and are output. When the plurality of amplifiers 2 are not operating in the same phase and the same amplitude, the difference power of the vector is reflected by the combiner 3, passes through the circulator 4, and is absorbed by the terminator 5. The detector 12 detects the power absorbed by the terminator 5, and the control circuit 13 automatically controls the phase of the variable phase shifter 11 so that the power detected by the detector 12 is minimized. In this way, the variable phase shifter 11 is designed to minimize the power absorbed by the terminator 5.
And adjust the output of the amplifier 2 to have the same phase,
Efficient power synthesis is possible. It is desirable to adjust the amplitudes in advance so that they have the same amplitude.

In FIG. 1, the variable phase shifter 1 is provided for each system.
1, the example in which the wave detector 12, and the control circuit 13 are provided is shown, but the variable phase shifter 11, the wave detector 12, and the control circuit 1 are shown.
3 may be provided in only one system. In that case, the variable phase shifter 11, the wave detector 12, and the control circuit 13
It suffices to make adjustment so that it has the same phase as the output of the amplifier 2 of another system by the system provided with. Further, FIG. 1 shows the combined type power amplifier in which the input signal is distributed to the two systems by the distributor 1, each is amplified by the amplifier 2, and the signals of those two systems are combined and output by the combiner 3.
The first embodiment is a combination type in which an input signal is distributed to three or more systems (n systems) by a distributor 1, each is amplified by an amplifier 2, and the signals of the n systems are combined and output by a combiner 3. It can also be applied to a power amplifier. In that case, the amplifier 2, the circulator 4, and the terminator 5 are provided in all n systems, and the variable phase shifter 11, the detector 12, and the control circuit 13 are provided in at least the (n-1) system, and they are variable. With the (n-1) system provided with the phase shifter 11, the wave detector 12, and the control circuit 13, the remaining 1
It may be adjusted so as to have the same phase as the output of the system amplifier 2.

As described above, according to the first embodiment, even when the phase of the amplifier 2 changes due to temperature change, aging change, etc., the variable phase shift is automatically performed so that the amplifier 2 is in phase. Since the device 11 is adjusted, efficient power combining can be maintained.

Embodiment 2. 2 is a circuit diagram showing a combined power amplifier according to a second embodiment of the present invention, in which 21 is provided between a distributor 1 and an amplifier 2,
A variable attenuator that varies the amplitude of the output of the amplifier 2, and 22 is a control circuit (amplitude controller) that automatically controls the amplitude of the variable attenuator 21 so that the power detected by the detector 12 is minimized. Other configurations are the same as those in FIG.

Next, the operation will be described. When the plurality of amplifiers 2 are not operating in the same phase and the same amplitude, the difference power of the vector is reflected by the combiner 3, passes through the circulator 4, and is absorbed by the terminator 5. Detector 1
At 2, the power absorbed by the terminator 5 is detected,
The control circuit 22 automatically controls the amplitude of the variable attenuator 21 so that the electric power detected by the detector 12 is minimized. In this way, the variable attenuator 21 is adjusted so that the power absorbed by the terminator 5 is minimized, and the output of the amplifier 2 is set to the same amplitude, whereby efficient power synthesis can be performed.
It is desirable that the phases are adjusted in advance so that they are in phase with each other.

In FIG. 2, the variable attenuator 2 is provided for each system.
1, the example in which the detector 12, and the control circuit 22 are provided is shown, but the variable attenuator 21, the detector 12, and the control circuit 2 are shown.
2 may be provided in only one system. In that case, the variable attenuator 21, the detector 12, and the control circuit 22
It suffices to adjust so that the amplitude is the same as that of the output of the amplifier 2 of another system by the system provided with. Further, FIG. 2 shows the combined power amplifier in which the input signal is distributed to the two systems by the distributor 1, amplified by the amplifier 2 respectively, and the signals of the two systems are combined and output by the combiner 3.
In the second embodiment, a divider 1 divides an input signal into three or more systems (n systems), an amplifier 2 amplifies the input signals, and a combiner 3 combines and outputs the signals of the n systems. It can also be applied to a power amplifier. In that case, the amplifier 2, the circulator 4, and the terminator 5 are provided in all n systems, and the variable attenuator 21, the detector 12, and the control circuit 22 are provided in at least the (n-1) system, and these variable attenuations are provided. The (n-1) system provided with the detector 21, the detector 12, and the control circuit 22 allows the remaining 1
It may be adjusted so that the output has the same amplitude as the output of the amplifier 2.

As described above, according to the second embodiment, even when the amplitude of the amplifier 2 changes due to temperature change, aging change, etc., the variable attenuator is automatically set to have the same amplitude. Since 21 is adjusted, efficient power combining can be maintained.

Embodiment 3. 3 is a circuit diagram showing a combined type power amplifier according to a third embodiment of the present invention, in which 31 is provided between a distributor 1 and an amplifier 2.
A vector adjuster for varying the phase and amplitude of the output of the amplifier 2, 32 is a control circuit (vector controller) for automatically controlling the phase and amplitude of the vector adjuster 31 so that the power detected by the detector 12 is minimized. Is. Other configurations are the same as those in FIG.

Next, the operation will be described. When the plurality of amplifiers 2 are not operating in the same phase and the same amplitude, the difference power of the vector is reflected by the combiner 3, passes through the circulator 4, and is absorbed by the terminator 5. Detector 1
At 2, the power absorbed by the terminator 5 is detected,
The control circuit 32 automatically controls the phase and amplitude of the vector adjuster 31 so that the electric power detected by the detector 12 is minimized. In this way, the vector adjuster 31 is adjusted so that the power absorbed by the terminator 5 is minimized, and the outputs of the amplifiers 2 have the same phase and the same amplitude, whereby efficient power combining can be performed.

Although FIG. 3 shows an example in which the vector adjuster 31, the detector 12 and the control circuit 32 are provided in each system, the vector adjuster 31, the detector 12 and the control circuit 32 are It may be provided only in the system. In that case, the system provided with the vector adjuster 31, the detector 12, and the control circuit 32 may be adjusted to have the same phase and the same amplitude as the output of the amplifier 2 of the other system.
Further, FIG. 3 shows the combined power amplifier in which the input signal is distributed to the two systems by the distributor 1, amplified by the amplifier 2 respectively, and the signals of those two systems are combined and output by the combiner 3. In the third embodiment, a divider 1 divides an input signal into three or more systems (n systems), an amplifier 2 amplifies the input signals, and a combiner 3 combines and outputs the signals of the n systems. It can also be applied to a power amplifier. In that case, the amplifier 2, the circulator 4, and the terminator 5 are provided in all n systems, and the vector adjuster 31, the detector 12, and the control circuit 32 are provided.
Is provided in at least the (n-1) system, and by the (n-1) system in which the vector adjuster 31, the detector 12 and the control circuit 32 are provided, the phase of the output of the remaining one system amplifier 2 and It may be adjusted so that the same amplitude is obtained.

As described above, according to the third embodiment, even if the amplifier 2 changes in phase and amplitude due to temperature change, aging change, etc., the amplifier 2 automatically becomes in phase and in amplitude. Since the vector adjuster 31 is adjusted as described above, efficient power combining can be maintained.

[0021]

As described above, according to the present invention, the electric power absorbed by the variable phase shifter for varying the phase of the output of the amplifier and the termination unit of the system provided with the variable phase shifter is detected. Since the detector and the phase controller that automatically controls the phase of the variable phase shifter so that the power detected by the detector is minimized are configured, the amplifier can change the phase due to temperature change or aging. Since the variable phase shifter is automatically adjusted so that the amplifiers have the same phase even when there is a change, there is an effect that efficient power combining can be maintained.

According to the present invention, the variable attenuator for varying the amplitude of the output of the amplifier, the detector for detecting the power absorbed by the terminator of the system provided with the variable attenuator, and the detector for detecting the electric power Since the amplifier is configured to have an amplitude controller that automatically controls the amplitude of the variable attenuator so that the power is minimized, the amplifier automatically operates even when the amplitude changes due to temperature change or aging. Since the variable attenuator is adjusted to have the same amplitude, there is an effect that efficient power combining can be maintained.

According to the present invention, the vector adjuster for varying the phase and amplitude of the output of the amplifier, the detector for detecting the power absorbed by the terminator of the system provided with the vector adjuster, and the detector are used. Since it is configured with a vector controller that automatically controls the phase and amplitude of the vector adjuster so that the detected power is minimized, even when the amplifier changes phase and amplitude due to temperature change, aging, etc. Since the vector adjuster is automatically adjusted so that the amplifiers have the same phase and the same amplitude, there is an effect that efficient power combining can be maintained.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing a combined power amplifier according to a first embodiment of the present invention.

FIG. 2 is a circuit diagram showing a combined power amplifier according to a second embodiment of the present invention.

FIG. 3 is a circuit diagram showing a combined power amplifier according to a third embodiment of the present invention.

FIG. 4 is a circuit diagram showing a conventional combined power amplifier.

[Explanation of symbols]

1 distributor, 2 amplifier, 3 combiner, 4 circulator, 5 terminator, 11 variable phase shifter, 12 wave detector,
13 control circuit (phase controller), 21 variable attenuator, 2
2 control circuit (amplitude controller), 31 vector adjuster,
32 control circuit (vector controller).

Continued front page    F term (reference) 5J069 AA01 AA21 AA41 CA02 CA03                       CA98 FA19 HA19 HA25 KA16                       KA23 KA55 KA68 KC05 KC06                       KC07 MA20 SA13 TA01                 5J090 AA01 AA21 AA41 CA02 CA03                       CA98 FA19 FN08 HA19 HA25                       KA16 KA23 KA55 KA68 MA20                       SA13 TA01                 5J500 AA01 AA21 AA41 AC02 AC03                       AC98 AF19 AH19 AH25 AK16                       AK23 AK55 AK68 AM20 AS13                       AT01 CK05 CK06 CK07 NF08

Claims (3)

[Claims] 1. A distributor that distributes an input signal into n (n is an arbitrary natural number of 2 or more) systems, and n that is provided in each of the n systems and amplifies the input signal distributed by the distributor. A plurality of amplifiers, a variable phase shifter which is provided in at least (n-1) system of the above n systems, and which varies the phase of the output of the amplifier of its own system, and each of which is amplified by the n amplifiers. A combiner for combining signals, n circulators provided between the amplifiers of the n systems, and circulators provided between the combiners, and connected to the n circulators, respectively, to absorb reflected power from the combiner. N terminators, a detector that detects the power absorbed by the terminator of the system in which the variable phase shifter is installed, and an upper limiter that minimizes the power detected by the detector. Syn- power amplifier and a phase controller for automatically controlling the variable phase shifter of the phase. 2. A distributor that distributes an input signal into n (n is an arbitrary natural number of 2 or more) systems, and n that is provided in each of the n systems and amplifies the input signal distributed by the distributor. Number of amplifiers, a variable attenuator provided in at least (n-1) system of the above n systems, and varying the amplitude of the output of the amplifier of its own system, and signals amplified by the above n number of amplifiers. Connected to the n amplifiers and the n circulators provided between the amplifiers and the combiners, and respectively connected to the n circulators to absorb reflected power from the combiner. n terminators, a detector that detects the power absorbed by the terminator of the system in which the variable attenuator is provided, and an upper limit so that the power detected by the detector is minimized. Synthesis type power amplifier with an amplitude controller for automatically controlling the amplitude of the variable attenuator. 3. A distributor for distributing an input signal into n (n is an arbitrary natural number of 2 or more) systems, and n provided in each of the n systems and amplifying the input signals distributed by the distributor. Number of amplifiers, a vector adjuster provided in at least (n-1) system of the above-mentioned n systems and changing the phase and amplitude of the output of the amplifier of its own system, and amplified by each of the n amplifiers. And a synthesizer for synthesizing the signals, n circulators provided between the amplifiers of the n systems and the synthesizer, and n circulators respectively connected to the circulators to reflect the reflected power from the synthesizer. The n number of terminators to be absorbed, the detector for detecting the power absorbed by the terminator of the system provided with the vector adjuster, and the power detected by the detector are Syn- power amplifier and a vector controller for automatically controlling the phase and amplitude of the vector adjuster so that the small.