JPH06152262A - Amplifying circuit - Google Patents

Abstract

PURPOSE:To provide an amplifying circuit having a large extent of tertiary distortion attenuation, namely, a low-tertiary distortion amplifying circuit. CONSTITUTION:A 1:1 in-phase hybrid transformer 1 distributes an input signal to the main circuit side and the distortion cancelling circuit side with the same phase in 1:1. An error amplifier 6 having the same characteristic as a main amplifier 2 amplifies the output signal of a preamplifier 5 with the same gain as the main amplifier 2. An attenuator 7 attenuates the output signal of the error amplifier 6 with the loss having the absolute value which is three times as large as the absolute value of the gain of the preamplifier 5. A 1:1 anti-phase hybrid transformer 4 couples the output signal of the main amplifier 2 and the anti-phase signal of the output signal of the attenuator 7 in 1:1. A phase adjuster 3 is adjusts the phase so that two signals as the coupling object of the 1:1 anti-phase hybrid transformer 4 accurately have opposite phases.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an amplifier circuit, and particularly to 3
An amplifier (which is realized by an element having a PN junction) having a characteristic that the gain of the second distortion (distorted signal related to the third-order component (third-order harmonic)) becomes three times the gain of the main signal (signal of the first-order component) Amplifier, etc.).

[0002]

2. Description of the Related Art Conventionally, an amplifier circuit of this type has been constructed as a direct transmission circuit for a main amplifier as shown in FIG. 3 or as a push-pull amplifier circuit as shown in FIG.

In the former direct transmission circuit of the main amplifier, a distortion signal (of course, 3
The next distortion is also included) is directly output. That is, the third-order distortion was not suppressed at all in this amplifier circuit (the direct transmission circuit of the main amplifier).

In the latter push-pull amplifier circuit,
The input signal is distributed to two signals having opposite phases by an anti-phase hybrid transformer (hybrid transformer with phase inversion output) on the input side, the two signals are amplified by each main amplifier, and the output signal of each main amplifier is output. The output is combined by the reverse-phase hybrid transformer on the side. That is, in the reverse-phase hybrid transformer on the output side, the distorted signals related to the main signal and the odd harmonics (third harmonics, etc.) are added (combined) in the same phase and related to the even harmonics (second harmonic, etc.). Distorted signals are added in antiphase. Therefore, in this amplifier circuit (push-pull amplifier circuit),
The second distortion (distortion signal related to the second harmonic) and the like were suppressed, but the third distortion was not suppressed.

[0005]

In the above-mentioned conventional amplifier circuit, since the third-order distortion is not suppressed, the output signal of the amplifier circuit contains the third-order distortion. There is a drawback that it adversely affects the equipment used.

Particularly, in the amplifier circuit used in the following method of use, the existence of the third-order distortion is a serious problem, and the existence of the above-mentioned drawbacks has been serious. Amplification circuit used for multi-channel transmission Amplification circuit used as a component when multi-stage configuration of amplification circuit is performed Amplification circuit used as high-power amplification circuit

In view of the above points, an object of the present invention is to provide an amplifier circuit having a large third-order distortion attenuation amount and a small third-order distortion, that is, a low-third amplifier circuit.
It is to provide a secondary distortion amplifier circuit.

[0008]

SUMMARY OF THE INVENTION An amplifier circuit of the present invention comprises a 1: 1 in-phase hybrid transformer which distributes an input signal in the same phase and in a 1: 1 manner to a main circuit side and a distortion canceling circuit side.
A main amplifier that amplifies the output signal on the main circuit side in the one-to-one in-phase hybrid transformer, a preamplifier that amplifies the output signal on the distortion cancellation circuit side in the one-to-one in-phase hybrid transformer, and the same characteristics as the main amplifier. An error amplifier for amplifying the output signal of the preamplifier with the same gain as that of the main amplifier, and an output signal of the error amplifier having an absolute value three times the absolute value of the gain of the preamplifier. An attenuator that is attenuated by a loss, a 1: 1 antiphase hybrid transformer that combines the output signal of the main amplifier and an antiphase signal of the output signal of the attenuator in a 1: 1 relationship, and the 1: 1 antiphase hybrid And a phase adjuster that adjusts the phase so that the two signals to be coupled by the transformer have exactly the opposite phases.

[0009]

In the amplifying circuit of the present invention, the 1: 1 in-phase hybrid transformer distributes the input signal to the main circuit side and the distortion canceling circuit side in the same phase and 1: 1 and the main amplifier in the 1: 1 in-phase hybrid transformer. Amplifies the output signal on the main circuit side,
The preamplifier amplifies the output signal on the distortion canceling circuit side in the one-to-one in-phase hybrid transformer, and the error amplifier has the same characteristics as the main amplifier, and the output signal of the preamplifier has the same gain as that of the main amplifier. And an attenuator attenuates the output signal of the error amplifier with a loss having an absolute value that is three times the absolute value of the gain of the preamplifier, and a one-to-one anti-phase hybrid transformer outputs the output signal of the main amplifier and the attenuator. The output signal and the opposite phase signal are combined in a one-to-one manner, and the phase adjuster adjusts the phase so that the two signals to be combined in the one-to-one anti-phase hybrid transformer are exactly opposite in phase.

[0010]

The present invention will be described in detail with reference to the drawings.

FIG. 1 is a block diagram showing the configuration of an embodiment of the amplifier circuit of the present invention. Amplifier circuit of this embodiment (low 3
Next distortion amplifier circuit) is a 1: 1 in-phase hybrid transformer 1
, The main amplifier 2, the phase adjuster 3, the one-to-one anti-phase hybrid transformer 4, the preamplifier 5, and the error amplifier 6
And an attenuator 7. Here, the main amplifier 2 and the phase adjuster 3 constitute a main circuit, and the preamplifier 5, the error amplifier 6 and the attenuator 7 constitute a distortion canceling circuit. The phase adjuster 3
Is for performing adjustment so that the two signals to be coupled by the one-to-one anti-phase hybrid transformer 4 have exactly the opposite phases (inverted phases; the phase difference is π radians (180 degrees)). Therefore, even if the phase adjuster 3 is provided on the distortion cancellation circuit side, the amplifier circuit of the present invention can be configured.

FIG. 2 is a diagram specifically showing the amplifier circuit shown in FIG. This amplification circuit includes a 1: 1 in-phase hybrid transformer 1 having a balance resistor 11 having a resistance value of 2R ₀ , a main amplifier 2 having a gain of G ₁ (dB), a phase adjuster 3, and a resistance value of R. A one-to-one reverse-phase hybrid transformer 4 having a balance resistance 41 of ₀ and a gain of G ₂
(DB) the preamplifier 5, the error amplifier 6 having the same characteristics as the main amplifier 2 (hence the gain is G ₁ ), and the loss (here, “loss” in the sense of “negative gain”). The term "(using the term"") includes an attenuator 7 that is -3G ₂ (dB). The amplifier circuit resistance amplifies an input signal received from a signal source having a source impedance 10 is R _0, the resistance value of an output signal to an output circuit having an output circuit impedance 20 is R ₀ (The values of the signal source impedance 10 and the output circuit impedance 20 do not necessarily have to be the same). The waveforms in FIG. 2 show the relationship between the phases of the two output signals in the 1: 1 in-phase hybrid transformer 1 and the relationship between the phases of the two signals to be combined in the 1: 1 antiphase hybrid transformer 4, The shape of the waveform and the magnitude of the amplitude are not appropriate.

Next, the operation of the amplifier circuit of this embodiment constructed as shown in FIG. 2 will be described.

The 1: 1 in-phase hybrid transformer 1 distributes the input signal to the main circuit side and the distortion canceling circuit side in the same phase and 1: 1 while matching the signal source impedance 10 with the balance resistor 11 (note that , Balance resistor 11
Is a balancing resistor for matching seen from the input terminal side). Therefore, 1: 1 in-phase hybrid transformer 1
Then, the point of 1: 2 ^1/2 of the primary winding and the intermediate tap of the secondary winding are equivalently connected.

Due to the function of the 1: 1 in-phase hybrid transformer 1, the input signal has two signals of the same phase and 1: 1 (hereinafter referred to as "main circuit side output signal" and "distortion in accordance with each distributed circuit"). The output signal of the cancellation circuit side ").

The main amplifier 2 receives the main circuit side output signal from the 1: 1 in-phase hybrid transformer 1 and amplifies the main circuit side output signal with a gain G ₁ . Here, it is assumed that D / U (Duy ratio) regarding the third-order distortion in the output of the main amplifier 2 is D ₁ / U ₁ (D ₁ and U ₁
Is in dB). The D / U is a desired signal (Desire. Main signal) and an undesired signal (Unde
sire. Here, the attenuation amount of the distortion signal (here, the third-order distortion attenuation amount) is shown by the ratio to the third-order distortion).

The phase adjuster 3 adjusts the phase of the output signal of the main amplifier 2 (details of the adjustment will be described later), and the adjusted signal is input to the main circuit side input terminal of the 1: 1 anti-phase hybrid transformer 4. To supply.

On the other hand, the preamplifier 5 and the error amplifier 6
Amplifies the distortion cancellation circuit side output signal from the 1: 1 in-phase hybrid transformer 1. A comparison between the signal thus amplified (output signal of the error amplifier 6) and the output signal of the main amplifier 2 is as follows. Regarding the main signal (the signal of the primary component), the signal on the distortion cancellation circuit side (the output signal of the error amplifier 6) is G ₂ (preamplifier) more than the signal on the main circuit side (the output signal of the main amplifier 2). The gain is 5). Regarding the third-order distortion, the signal on the distortion cancellation circuit side is 3G ₂ (three times the gain of the preamplifier 5) than the signal on the main circuit side.
Only the level gets higher. This is because the gain of the third-order distortion is three times the gain of the main signal in the amplifier (the amplifier realized by the element having the PN junction, etc.) that constitutes the amplifier circuit of the present invention, as described above. is there.

That is, the D / U (third-order distortion attenuation amount) relating to the third-order distortion of the output signal of the error amplifier 6 is (D ₁ + G ₂ ).
/ (U ₁ + 3G ₂ ).

The attenuator 7 outputs the output signal of the error amplifier 6 to −
Attenuates with a loss of 3G ₂ . As a result, the level of the third-order distortion of the output signal of the attenuator 7 is attenuated to the same value (U ₁ ) as the level of the third-order distortion of the output signal of the main amplifier 2. It is assumed that the attenuator 7 has a linear characteristic and that no distortion is generated by the attenuator 7.

The output signal of the attenuator 7 is supplied to the input terminal of the one-to-one antiphase hybrid transformer 4 on the distortion cancellation circuit side.

The one-to-one anti-phase hybrid transformer 4 outputs the output signal of the phase adjuster 3 (the main amplifier 2 whose phase is adjusted).
Output signal of the attenuator 7 and a signal having an opposite phase to the output signal of the attenuator 7 are combined in a one-to-one manner and output to the output circuit. At this time, the balance resistor 41 matches the output circuit impedance 20.

Here, the two signals to be coupled by the one-to-one anti-phase hybrid transformer 4 have opposite phases (π to each other).
Will have a phase difference of radians). It should be noted that the phase adjuster 3 uses the main amplifier 2 so that the two signals to be coupled by the one-to-one antiphase hybrid transformer 4 have exactly the opposite phases.
The phase of the output signal of is adjusted.

By the operation of the one-to-one anti-phase hybrid transformer 4 as described above, the third-order distortion of the signal on the main circuit side and the third-order distortion of the signal on the distortion canceling circuit side are canceled out, and the amplifying circuit of this embodiment has Attenuation of third-order distortion of output signal (ideally disappears)
Is realized.

On the other hand, the one-to-one reverse phase hybrid transformer 4
Since the magnitudes (amplitudes) of the main signals of the two signals to be combined with each other are different, the main signal on the output side of the one-to-one antiphase hybrid transformer 4 is not canceled like third-order distortion ( See the description of overall gain below).

The total gain of the amplifier circuit of this embodiment, which operates as described above, is given by the following equation.

[0027] Here ^{20 × log (10 A -10 B} ) -6 _{[dB], A = G 1/20,} B = (G 1 -2G 2) / 20

In this equation, "-6 dB" is 1
It is the total loss of the 1-to-1 in-phase hybrid transformer 1 and the 1-to-1 anti-phase hybrid transformer 4.

As shown in the above equation, if the values of G ₁ and G ₂ are general values, the level of the main signal in the output signal of the main amplifier 2 on the main circuit side depends on the existence of the distortion canceling circuit. Hardly affected.

[0030]

As described above, according to the present invention, the third-order distortion of the signal on the main circuit side and the third-order distortion of the signal on the distortion canceling circuit side are added in opposite phases to cancel each other. It is possible to realize an amplifier circuit with a large secondary distortion attenuation amount (that is, an amplifier circuit with a small third-order distortion of the output signal) (in addition, it is almost possible with respect to the level of the main signal in the output signal of the main amplifier in the amplifier circuit). It has no effect).

[Brief description of drawings]

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

FIG. 2 is a diagram showing a specific configuration of the amplifier circuit shown in FIG.

FIG. 3 is a block diagram showing a configuration of an example of a conventional amplifier circuit.

FIG. 4 is a block diagram showing a configuration of another example of a conventional amplifier circuit.

[Explanation of symbols]

 1 1: 1 In-phase Hybrid Transformer 2 Main Amplifier 3 Phase Adjuster 4 1: 1 Reverse Phase Hybrid Transformer 5 Preamplifier 6 Error Amplifier 7 Attenuator 10 Signal Source Impedance 11,41 Balance Resistor 20 Output Circuit Impedance

Claims (1)

[Claims] 1. A 1: 1 in-phase hybrid transformer that distributes an input signal in the same phase and in a 1: 1 manner to a main circuit side and a distortion cancellation circuit side, and an output signal on the main circuit side in this 1: 1 in-phase hybrid transformer. A main amplifier that amplifies; a preamplifier that amplifies an output signal on the distortion cancellation circuit side in the one-to-one in-phase hybrid transformer; and an output signal of the preamplifier that has the same characteristics as the main amplifier. An error amplifier that amplifies with the same gain as that of the preamplifier, an attenuator that attenuates an output signal of the error amplifier with a loss having an absolute value three times the absolute value of the gain of the preamplifier, and an output of the main amplifier. A one-to-one anti-phase hybrid transformer that combines a signal and an anti-phase signal of the output signal of the attenuator in a one-to-one relationship, and two signals to be combined by the one-to-one anti-phase hybrid transformer are accurate. And a phase adjuster for adjusting the phase so that the phase is opposite to that of the amplifier circuit.