JP3371837B2 - Feedforward amplifier and amplification method thereof - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a feedforward amplifier suitable for improving distortion of an amplified signal in a wide band and an amplification method thereof.

[0002]

2. Description of the Related Art Conventionally, various feedforward amplifiers have been proposed which can obtain a stable amplified signal with less distortion.

FIG. 2 is a block diagram showing an example of a conventional feedforward amplifier having a predistortion circuit.

The feedforward amplifier shown in FIG. 2 includes distributors 102 and 106, a predistortion circuit 103,
The vector adjusters 104 and 111, the main amplifier 105, the delay devices 107 and 109, the combiners 108 and 110, and the auxiliary amplifier 112 are provided.

The signals having different frequencies input from the input terminal 101 are distributed by the distributor 102 to the signal paths a and b.

The signal distributed to the signal path a side is amplified by the main amplifier 105 after passing through the predistortion circuit 103 and the vector adjuster 104. The signal amplified by the main amplifier 105 is distributed by the distributor 106 to the signal paths c and e.

On the other hand, the signal distributed to the signal path b side is
After passing through the delay device 109, it is combined with the signal distributed to the signal path e side by the combiner 110. Synthesizer 110
The signal combined by is a distortion component due to the main amplifier 105.

The signal from the combiner 110 passes through the vector adjuster 111 and the auxiliary amplifier 112 on the signal path d side, and is then combined with the signal distributed on the signal path c side by the combiner 108.

At this time, the distortion component due to the main amplifier 105 is canceled in the combiner 108, and the output terminal 1
An amplified signal without distortion is output from 13.

[0010]

By the way, in the above-described conventional feedforward amplifier, the predistortion circuit 103 provided before the main amplifier 105 is provided.
Has a predetermined frequency band.

Therefore, the predistortion circuit 10
Since the frequency band of the signal for which the predistortion compensation operation is obtained is limited by 3, the frequency band of the signal amplified by the feedforward amplifier is also limited.

The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a feedforward amplifier capable of improving the distortion of an amplified signal in a wide band and an amplification method thereof. is there.

[0013]

The feed-forward amplifier according to claim 1 inputs signals having different frequency bands.
It is provided corresponding to each input terminal, and each is input
Different a first distributor for distributing signals of different frequency bands from the terminals to the first and second signal paths, each respectively
That which has a frequency band, provided corresponding to each frequency band of the signal of the first signal path, and a predistortion circuit for performing pre-distortion compensation for each frequency band of the signal, these predistortion circuits Corresponding to
And the signal of each frequency band for which predistortion compensation has been performed.
Vector adjuster that aligns the amplitude of the signal, and the amplitude is aligned
A first combiner for combining the signals of the respective frequency bands, a main amplifier for amplifying the signals of the respective frequency bands combined by the first combiner, and a third amplifier for the amplified signals of the respective frequency bands and a second distributor for distributing the fourth signal path, by combining the respective frequency band of the signal of each frequency band of the signal of the second signal path and the fourth signal path, from the main amplifier A distortion component extracting means for extracting a distortion component, a distortion component of each frequency band extracted by the distortion component extracting means and a signal of each frequency band distributed to the third signal path are combined, and the main amplifier is used. Each amplified
Distortion component canceling means for canceling the distortion component of the amplified signal in the frequency band of. Also, the distortion component extracting means, a first delay shifting phase by 180 degrees for each frequency band of the signal of the second signal path for each frequency <br/> frequency band of the signal of the first signal path And the first
Synthesizer and, for each of the signal and the fourth signal path in the circumferential <br/> frequency band of each of the second combiner second combining signals in the frequency band of each delayed by the delayer A third combiner that combines signals in the frequency band may be provided. Further, the distortion component canceling means determines the phase of the signal of each frequency band distributed to the third signal path with respect to the signal of the distortion component of each frequency band extracted by the distortion component extracting means. a second delayer shifting 180 degrees, so and a fourth combiner for combining the signals of the distortion component of the signal and each frequency band of the frequency band of each delayed by the second delay unit be able to. Contract
The feedforward amplification method according to claim 4 has a frequency
Corresponds to each input terminal where signals with different bands are input
First by distributor, the step of distributing the different signal frequency bands to the first and second signal paths each provided Te
And each has a different frequency band
Corresponding to signals in each frequency band of the first signal path
With the pre-distortion circuit provided separately,
And performing pre-distortion compensation for the frequency band of the signal,
Provided corresponding to these pre-distortion circuits
Predistortion-compensated frequencies by the vector adjuster
Band width signal amplitude adjustment process
A step of synthesizing the frequency band of the signal s, the synthesized
The process of amplifying signals in different frequency bands, and
A step of distributing the frequency band of the signal s to the third and fourth signal paths, and each frequency band of the signal of each frequency band of the signal and the fourth signal path of the second signal path by combining And extract the amplified distortion components of each frequency band
The process, the extracted distortion component of each frequency band and the third
Combines the respective distributed to signal paths in the frequency band of the signal, characterized in that a step of canceling the distortion component of the amplified each frequency band amplified signal.
Also, the phase of the signal in each frequency band of the second signal path is set to 1 with respect to the signal in each frequency band of the first signal path.
A step of shifting 80 degrees, thereby synthesizing a step of synthesizing a frequency band of a signal of each are offset in phase, and each frequency band of the signal of the signal and the fourth signal path synthesized each frequency band And can have . Further, a step of shifting 180 degrees the phase of the extracted each frequency band a third respectively distributed to the signal path of the frequency band of the signal to the signal distortion components, each are displaced in phase
'S and a signal of the distortion component in the frequency band of the signal and each frequency band can be made to a step of the synthesis. In the feedforward amplifier and the amplification method thereof according to the present invention, the first distributor distributes the signals of the respective frequency bands to the first and second signal paths, and the predistortion circuit distributes the first signal path. Distortion compensating is performed on the signals of the respective frequency bands, and the distortion-compensated signals of the respective frequency bands are combined by the first combiner, and combined by the main combiner by the first combiner. The signals of the respective frequency bands are amplified, the signals of the respective frequency bands combined by the first combiner are distributed to the third and fourth signal paths by the second distributor, and the distortion component extracting means is used. , The signal of each frequency band of the second signal path and the signal of each frequency band of the fourth signal path are combined to extract the distortion component by the main amplifier, and the distortion component is extracted by the distortion component cancellation means. A distortion component of each frequency band and a signal of each frequency band distributed to the third signal path are combined to cancel the distortion component of the amplified signal of each frequency band amplified by the main amplifier. .

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below.

FIG. 1 is a block diagram showing an embodiment of a feedforward amplifier of the present invention.

The feedforward amplifier shown in FIG.
Distributors 2-1, 2-2, ... 2-N, predistortion circuits 3-1, 3-2, ... 3-N, vector adjusters 4-1, 4-2 ,. -N, 13, synthesizer 5,
9, 11, 12, main amplifier 6, distributor 7, delay device 8, 1
0-, 10-2, ... 10-N, and an auxiliary amplifier 14 are provided.

Distributors 2-1 and 2- serving as first distributors
2, ... 2-N are input terminals 1-1, 1-2, ...
The signals having different frequencies input from 1-N are distributed to the signal path a as the first signal path and the signal path b as the second signal path.

Pre-distortion circuit 3-1 and 3-
2, ... 3-N have different frequency bands, and perform a predistortion compensation operation on the signals in the respective frequency bands.

Vector adjusters 4-1, 4-2, ... 4
-N has a variable attenuator and a variable phase shifter (not shown). The combiner 5 as a first combiner combines the signals having different frequencies that have passed through the vector adjusters 4-1, 4-2, ... 4-N.

The main amplifier 6 amplifies the signal combined by the combiner 5. The distributor 7 as the second distributor is
The signal amplified by the main amplifier 6 is distributed to the signal path c as the third signal path and the signal path e as the fourth signal path.

The delay device 8 as the second delay device delays the signal distributed to the signal path c side.

The combiner 9 as the fourth combiner combines the signals of the signal path c and the signal path d and outputs the amplified signal from the output terminal 15. Here, the delay device 8 and the combiner 9
Is a distortion component canceling means.

Delay units 10-1 and 1 as the first delay unit
0-2, ..., 10-N delay the signals distributed to the signal path b side. The synthesizer 11 as the second synthesizer is
The signals delayed by the delay units 10-1, 10-2, ... 10-N and having different frequencies are combined.

The combiner 12 as the third combiner combines the signal combined by the combiner 11 and the signal distributed to the signal path e side.

Here, the delay devices 10-1, 10-2, ...
The 10-N and the combiners 11 and 12 are used as distortion component extracting means.

The vector adjuster 13 has a variable attenuator and a variable phase shifter (not shown). The auxiliary amplifier 14 amplifies the signal passed through the vector adjuster 13.

Next, the operation of the feedforward amplifier having such a configuration will be described.

First, the input terminals 1-1, 1-2, ... 1
The signals with different frequencies input from -N are distributed to the signal path a and the signal path b by the distributors 2-1, 2-2, ... 2-N, respectively.

The signals distributed to the signal path a side pass through predistortion circuits 3-1, 3-2, ... 3-N and vector adjusters 4-1, 4-2 ,. When it passes, it is combined by the combiner 5. Then, it is amplified by the main amplifier 6.

At this time, distortions are generated in the main amplifier 6 with respect to input signals of different frequencies. Here, the predistortion circuits 3-1, 3-2, ..., 3-N are adjusted so that the distortions generated in the main amplifier 6 are minimized.

The signal output from the main amplifier 6 is distributed to the signal path c and the signal path e by the distributor 7.

On the other hand, distributors 2-1, 2-2, ... 2-
The signals distributed to the signal path b side by N are delay devices 10-1, 10-corresponding to the respective frequency bands of the predistortion circuits 3-1, 3-2, ... 3-N.
2, ... 10-N delayed. Delay device 10-
The respective signals passing through 1, 10-2, ... 10-N are combined by the combiner 11.

The signal combined by the combiner 11 and the signal distributed to the signal path e side are combined by the combiner 12.

At this time, the signals of different frequencies distributed to the signal path b side have a phase of 180 ° with respect to the signals of different frequencies distributed to the signal path e side.
The delay units 10-1, 10-2, ...
Adjusted by 0-N.

Further, the respective signals distributed to the signal path e side are arranged so that the vector adjuster 4 has the same amplitude.
-1, 4-2, ... 4-N are adjusted.

The signal synthesized by the synthesizer 12 becomes a distortion component generated in the main amplifier 6. Synthesizer 12
After passing through the vector adjuster 13 on the signal path d side, the signal from is amplified by the auxiliary amplifier 14 and then input to the combiner 9.

On the other hand, the signal distributed to the signal path c side by the distributor 7 is input to the combiner 9 after passing through the delay device 8.

In the combiner 9, the signal containing the distortion component amplified by the main amplifier 6 and the signal containing the distortion component amplified by the auxiliary amplifier 14 are combined to obtain the signal amplified by the main amplifier 6. The distortion component of is canceled. As a result, a stable broadband amplified signal with little distortion is obtained from the output terminal 15.

As described above, in the present embodiment, the distributor 2
Signals of respective frequency bands are distributed to the signal paths a and b by -1, -2-2, ... 2-N, and by the predistortion circuits 3-1, 3-2, ... 3-N, Distortion compensation is performed on the signal in each frequency band of the signal path a.

Then, the combiner 5 combines the distortion-compensated signals in the respective frequency bands, and the main amplifier 6 amplifies the signals in the respective frequency bands combined by the combiner 5. Then, the distributor 7 distributes the signals of the respective frequency bands combined by the combiner 5 to the signal paths c and e, and the combiner 12 of the distortion component extracting means separates the signals of the respective frequency bands of the signal path b. And the signal of each frequency band of the signal path e are combined to extract the distortion component by the main amplifier 6.

Then, the synthesizer 9 of the distortion component canceling means synthesizes the extracted distortion components of the respective frequency bands and the signals of the respective frequency bands distributed to the signal path c, and the main amplifier 6 amplifies the signals. The distortion component of the amplified signal in each frequency band is canceled.
As a result, a stable wide-band amplified signal with little distortion can be obtained.

[0042]

As described above, according to the feedforward amplifier and the amplifying method thereof according to the present invention, the first divider distributes the signals in the respective frequency bands to the first and second signal paths, The distortion circuit causes the signals in the respective frequency bands of the first signal path to be distortion-compensated, the first combiner combines the signals in the respective frequency bands that have been distortion-compensated, and the main amplifier The signals of the respective frequency bands combined by the first combiner are amplified, and the signals of the respective frequency bands combined by the first combiner are amplified by the second distributor to the third and fourth signal paths. And the distortion component extraction means combines the signals in the respective frequency bands of the second signal path and the signals in the respective frequency bands of the fourth signal path to extract the distortion component by the main amplifier,
The distortion component canceling means combines the extracted distortion components of the respective frequency bands with the signals of the respective frequency bands distributed to the third signal path, and the amplified signals of the respective frequency bands amplified by the main amplifier. Since the distortion component of is canceled, the distortion of the amplified signal in the wide band can be improved.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of a feedforward amplifier of the present invention.

FIG. 2 is a block diagram showing an example of a conventional feedforward amplifier.

[Explanation of symbols]

1-1, 1-2, ... 1-N Input terminals 2-1, 2-2, ... 2-N Distributor 3-1, 3-2, ... 3-N Pre-distortion circuit 4 -1,4-2, ... 4-N, 13 Vector adjuster 5,9,11,12 Combiner 6 Main amplifier 7 Distributor 8, 10-1, 10-2, ... 10-N Delay Device 14 auxiliary amplifier 15 output terminal

Claims (6)

(57) [Claims] 1. Each of which signals having different frequency bands are input
It is provided corresponding to each input terminal, each of which is the input terminal
And a first distributor for distributing the signals of different frequency bands to the first and second signal paths, and signals of the respective frequency bands of the first signal path. provided corresponding to a predistortion circuit for performing pre <br/> distortion compensation with respect to the frequency band of the signal of the each provided corresponding to the predistortion circuit,
The amplitude of each predistortion-compensated frequency band signal is
A vector adjuster for aligning, a first combiner for combining the signals in the respective frequency bands with the same amplitude, and a main amplifier for amplifying the signals in the respective frequency bands combined by the first combiner , The amplified signals in the respective frequency bands are divided into third and fourth
A second distributor for distributing the signal path, by combining the respective frequency band of the signal of the second said with each frequency band of the signal of the signal path of the fourth signal path,
A distortion component extracting means for extracting a distortion component by the main amplifier, each distributed to the third signal path and the distortion component of the frequency band of each extracted by the distortion component extracting means
And a distortion component canceling means for canceling a distortion component of the amplified signal of each frequency band amplified by the main amplifier, the feedforward amplifier. 2. The first distortion component extracting means shifts the phase of the signal of each frequency band of the second signal path by 180 degrees with respect to the signal of each frequency band of the first signal path. A delay device, a second combiner for combining the signals in the respective frequency bands delayed by the first delay device, a signal in the respective frequency bands from the second combiner, and the fourth signal The feed-forward amplifier according to claim 1, further comprising a third combiner that combines signals in respective frequency bands of the path. 3. The distortion component canceling means outputs the signals of the respective frequency bands distributed to the third signal path with respect to the signals of the distortion components of the respective frequency bands extracted by the distortion component extracting means. A second delay unit that shifts the phase by 180 degrees; and a fourth combiner that combines the signal of each frequency band delayed by the second delay unit and the signal of the distortion component of each frequency band. Claims comprising
The feedforward amplifier according to 1 or 2 . 4. Each of which signals with different frequency bands are input
By the first distributor provided corresponding to each input terminal
The step of distributing the signals having different frequency bands to the first and second signal paths , respectively, and
Corresponding to the signal of each frequency band of the first signal path
The pre-distortion circuit provided in the
Step of performing pre-distortion compensation with respect to s of the frequency band of the signal
And provided corresponding to these pre-distortion circuits
Predistortion-compensated frequencies by the vector adjuster
Step of amplifying a step to align the amplitude of the band of the signal, the step of synthesizing a signal of the frequency band of each said amplitude are aligned, the signal of the frequency band of each of the synthesized
And the amplified signals in the respective frequency bands to the third and fourth
A step of distributing the signal path, by synthesizing the each frequency band of the signal of the second said with each frequency band of the signal of the signal path of the fourth signal path,
Extract the distortion component of each amplified frequency band
The process, the extracted distortion component of each frequency band and the third
Feed-forward amplifying method characterized by the synthesizing the signals in the frequency band of the signal each path is partitioned, and a step for canceling the distortion component of the amplified signal in the frequency band of each which is the amplification. Wherein each said a step of shifting 180 degrees the phase of the first signal path each respective frequency band of the signal of the second signal path with respect to the frequency band of the signal, which is shifted with the phase of a step of synthesizing a signal of the frequency band, and a step for combining the signals of each frequency band of the signal and the fourth signal path of the frequency band of each of the synthesized
The feed-forward amplification method according to claim 4 , which comprises : 6. Each distributed to the third signal path for a signal distortion component in the frequency band of each which is the extracted
A step of shifting the phase by 180 degrees' s frequency band signal, and a step of synthesizing a signal distortion component of the signal and each of the frequency band of the frequency band of each of the offset of the phase
Feed-forward amplifying method according to claim 4 or 5, characterized in that it has.