JPH05291993A - Automatic gain control amplifier - Google Patents

Abstract

PURPOSE:To prevent the increase of distortion even though an input signal is larger or smaller than a reference input level in the automatic gain control amplifier for a space diversity receiver. CONSTITUTION:Amplifiers 1 and 2 and voltage control attenuators 5 and 6 comprise the 1st automatic gain control system. Amplifiers 3, 4 and voltage control attenuators 7, 8 comprise the 2nd automatic gain control system. A signal inputted from an input terminal T1 is detected by a detector 9 to control the attenuation amount of the voltage control attenuator 5. A signal inputted from an input terminal T2 is detected by a detector 10 to control the attenuation amount of the voltage control attenuators 7. A comparator 15 compares the output of the detectors 9, 10 to control the voltage control attenuators 6, 8 so as to provide the gain with the higher level.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic gain control amplifier, and more particularly to an automatic gain control amplifier used in a space diversity receiver for microwave radio communication equipment.

[0002]

2. Description of the Related Art As a conventional automatic gain control amplifier, there is a circuit shown in FIG. 2 used in a space diversity receiver. In the conventional automatic gain control amplifier shown in FIG. 2, the signal input from the input terminal T1 is
1, the voltage-controlled attenuator 25, the amplifier 22, and the voltage-controlled attenuator 26, and is input to one input terminal of the combiner 38.
The signal input from the input terminal T2 is input to the other input terminal of the combiner 38 via the amplifier 23, the voltage control attenuator 27, the amplifier 24, and the voltage control attenuator 28. The respective attenuation amounts of the voltage controlled attenuators 25, 26, 27 and 28 are the detection signal obtained by detecting the output of the voltage controlled attenuator 26 by the wave detector 29 and passing through the loop filter 31, and the output of the voltage controlled attenuator 28. Is detected by the wave detector 30 and the detected signal passed through the loop filter 32 is level-compared by the comparator 35, so that the attenuation amount matched with the system having the larger level of the detected signal is obtained.
It is controlled collectively.

[0003]

However, in the above-mentioned conventional automatic gain control amplifier, the multistage voltage control attenuator is provided between the multistage amplifiers, and each attenuation amount of the multistage voltage control attenuator is controlled by the same control signal. Since they are collectively controlled to have the same amount of attenuation, there is a problem that distortion increases when the input signal is higher than the standard input level and NF deteriorates when the input signal is lower than the standard level.

The present invention has been made in view of the above problems, and in an automatic gain control amplifier used in a space diversity receiver, distortion increases even when an input signal is higher or lower than a standard input level. It is an object of the present invention to provide an automatic gain control amplifier capable of suppressing noise and preventing deterioration of NF.

[0005]

An automatic gain control amplifier according to the present invention is used in a space diversity receiver.
Input two input signals and amplify each input signal 2
In an automatic gain control amplifier having two multi-stage automatic gain control amplification systems, pre-gain control means for respectively controlling the gain in the pre-stage gain control means in the two multi-stage automatic gain control amplification systems, based on the two input signals. 2 above
A second-stage gain control means for respectively controlling gains of the second-stage gain control means in the two multi-stage automatic gain control amplification systems so that the two input signals are compared to obtain a gain corresponding to the larger input signal. Characterize.

Another automatic gain control amplifier according to the present invention is an automatic gain control amplifier used in a space diversity receiver, which has two multi-stage automatic gain control amplification systems for inputting two input signals and amplifying each input signal. In a gain control amplifier, a first amplifier for inputting and amplifying a first input signal of the two input signals, and a first voltage control attenuator for inputting and attenuating an output of the first amplifier And this first
Second amplifier for inputting and amplifying the output of the voltage-controlled attenuator, and second input for amplifying the output of this second amplifier
Voltage controlled attenuator, a third amplifier for inputting and amplifying a second input signal of the two input signals, and a third amplifier
Voltage-controlled attenuator for inputting and attenuating the output of the second amplifier, a fourth amplifier for inputting and amplifying the output of the third voltage-controlled attenuator, and an input of the fourth amplifier A fourth voltage-controlled attenuator that attenuates by a step, a first detector that detects the level of the first input signal, and a first loop filter that receives the output of the first detector as an input, A fifth amplifier for inputting and amplifying the output of the first loop filter and outputting as a control voltage for controlling the amount of attenuation in the first voltage controlled attenuator, and detecting the level of the second input signal. A second wave detector, a second loop filter having the output of the second wave detector as an input, and an output of the second loop filter as an input for amplification and attenuation in the third voltage control attenuator. A sixth amplifier for outputting a control voltage for controlling the quantity, A first comparator for comparing an output of the first loop filter and an output of the second loop filter and outputting a signal corresponding to a larger input signal of the two input signals; A second comparator for comparing the output of the amplifier 5 and the output of the first comparator and outputting a control voltage for controlling the attenuation amount in the second voltage controlled attenuator based on the comparison result; A third control circuit that compares the output of the sixth amplifier with the output of the first comparator and outputs a control voltage for controlling the amount of attenuation in the fourth voltage controlled attenuator based on the comparison result. And a comparator.

[0007]

In the automatic gain control amplifier according to the present invention,
An automatic gain control amplifier used in a space diversity receiver for inputting two input signals has two multi-stage automatic gain control amplification systems for amplifying the two input signals respectively, and each pre-stage gain in the multi-stage automatic gain control amplification system. The control means respectively controls the gains based on the respective levels of the two input signals, and each post-stage gain control means in the multi-stage automatic gain control amplification system compares the two input signals to obtain two multi-stage automatic gain control. The gain is controlled so that the gain of the amplification system matches the larger input signal. As a result, the automatic gain control amplifier according to the present invention allows the automatic gain control amplifier according to the present invention to provide two input signals having a large level by the post-stage gain control means even when one of the two input signals is extremely larger than the other input signal. Since the gain of the multistage automatic gain control amplification system is controlled, it is possible to prevent the distortion from increasing, and further, when the input signal is smaller than the standard level,
Since the input signal can be sufficiently amplified by the pre-stage gain control means, the deterioration of NF can be prevented.

[0008]

Embodiments of the present invention will now be described with reference to the accompanying drawings.

FIG. 1 is a block diagram showing an automatic gain control amplifier according to an embodiment of the present invention. As shown in Figure 1,
The input terminal T1 is connected to the input end of the amplifier 1 and the detection end of the detector 9. The output end of the amplifier 1 is the input end of the voltage controlled attenuator 5, and the output end of the voltage controlled attenuator 5 is the amplifier 2
, The output terminal of the amplifier 2 is the input terminal of the voltage controlled attenuator 6, and the output terminal of the voltage controlled attenuator 6 is the first terminal of the combiner 18.
Is connected to the input end of. The input terminal T2 is connected to the amplifier 3
Of the detector 10 and the detector 10 of the detector 10. The output end of the amplifier 3 is the input end of the voltage control attenuator 7, the output end of the voltage control attenuator 7 is the input end of the amplifier 4, the output end of the amplifier 4 is the input end of the voltage control attenuator 8, and the voltage control The output terminal of the attenuator 8 is connected to the second input terminal of the combiner 18.

The output end of the detector 9 is the input end of the loop filter 11, the output end of the loop filter 11 is the input end of the amplifier 13 and the first input end of the comparator 15, and the output end of the amplifier 13 is voltage controlled. It is connected to the control end of the attenuator 5 and the first input end of the comparator 16. The output terminal of the detector 10 is the input terminal of the loop filter 12, the output terminal of the loop filter 12 is the input terminal of the amplifier 14 and the second input terminal of the comparator 15, and the output terminal of the amplifier 14 is the voltage controlled attenuator 7. Is connected to the control end of the comparator and the first input end of the comparator 17. The output terminal of the comparator 15 is the second input terminal of the comparator 16 and the second input terminal of the comparator 17, the output terminal of the comparator 16 is the control terminal of the voltage controlled attenuator 6, and the output of the comparator 17. The end is connected to the control end of the voltage controlled attenuator 8.

The output terminal of the combiner 18 is connected to the input terminal of the automatic gain control amplifier 19, and the output terminal of the automatic gain control amplifier 19 is connected to the output terminal T3.

Next, the operation of the automatic gain control amplifier according to this embodiment constructed as described above will be explained. The signal input from the input terminal T1 is input to the first input terminal of the combiner 18 via the amplifier 1, the voltage controlled attenuator 5, the amplifier 2 and the voltage controlled attenuator 6. The signal input from the input terminal T2 is supplied to the amplifier 3, the voltage controlled attenuator 7, the amplifier 4
And the voltage-controlled attenuator 8 to be input to the second input terminal of the combiner 18. The combiner 18 combines the two input signals and outputs the combined signal. The automatic gain control amplifier 19 is the combiner 1
The output of 8 is input, amplified so as to have a constant level, and output to the output terminal T3.

The level of the signal input from the input terminal T1 is detected by the wave detector 9 and is input to the amplifier 13 and the comparator 15 via the loop filter 11. Since the output of the amplifier 13 is the control voltage of the voltage controlled attenuator 5, the amount of attenuation in the voltage controlled attenuator 5 is the input terminal T1.
It changes according to the level of the signal input from. The level of the signal input from the input terminal T2 is detected by the wave detector 10 and is input to the amplifier 14 and the comparator 15 via the loop filter 12. The output of the amplifier 14 is
Since it is the control voltage of the voltage controlled attenuator 7, the amount of attenuation in the voltage controlled attenuator 7 changes according to the level of the signal input from the input terminal T2.

The comparator 15 compares the level of the signal input from the input terminal T1 with the level of the signal input from the input terminal T2, and based on this result, the input terminals T1 and T1.
A control voltage is output to the comparators 16 and 17 so that the amount of attenuation matches the system having the larger level of the input signal in 2. The comparator 16 controls the amount of attenuation of the voltage controlled attenuators 6 and 8 and also defines the total amount of attenuation in the voltage controlled attenuators 5 and 6, and the output of the comparator 15 and the voltage controlled attenuator 5.
Is compared with the output of the amplifier 13 for controlling the amount of attenuation of, and the voltage for controlling the amount of attenuation of the voltage controlled attenuator 6 is output based on this result. Further, the comparator 17 is a voltage controlled attenuator 6
And the output of the comparator 15 which controls the attenuation of the voltage-controlled attenuators 7 and 8 and also defines the total attenuation of the voltage-controlled attenuators 7 and 8, and the output of the amplifier 14 which controls the attenuation of the voltage-controlled attenuators 7. A voltage for controlling the attenuation amount of the voltage controlled attenuator 8 is output based on this result.

As a result, in the automatic gain control amplifier according to the present embodiment, the amount of attenuation of the voltage controlled attenuator 5 is controlled based on the level of the signal input from the input terminal T1, and the amount of attenuation of the voltage controlled attenuator 6 is controlled. Is controlled based on the level of the signal input from the input terminal T1 or the level of the signal input from the input terminal T2, whichever is larger. Similarly, the amount of attenuation of the voltage controlled attenuator 7 is
The voltage control attenuator 8 is controlled based on the level of the signal input from the input terminal 2, and the attenuation amount of the voltage control attenuator 8 is based on the level of the signal input from the input terminal T2 or the level of the signal input from the input terminal T1 whichever is larger. Controlled.

[0016]

As described above, according to the automatic gain control amplifier of the present invention, in the automatic gain control amplifier having the two automatic gain control systems, the voltage control attenuator in the preceding stage in each automatic gain control system is used. The amount of attenuation is controlled based on the level of the input signal of its own system, and the amount of attenuation of the voltage-controlled attenuator in the subsequent stage is controlled so that the gain matches the system with the larger level of the input signal. Therefore, even when the input signal in each system is larger or smaller than the standard input level, it is possible to suppress an increase in distortion and prevent deterioration of NF.

[Brief description of drawings]

FIG. 1 is a block diagram showing an automatic gain control amplifier according to an embodiment of the present invention.

FIG. 2 is a block diagram showing an example of a conventional automatic gain control amplifier.

[Explanation of symbols]

 1, 2, 3, 4, 13, 14; Amplifier 5, 6, 7, 8; Voltage control attenuator 9, 10; Detector 11, 12; Loop filter 15, 16, 17; Comparator

Claims (2)

[Claims] 1. An automatic gain control amplifier for use in a space diversity receiver, comprising two multi-stage automatic gain control amplification systems for inputting two input signals and amplifying each of the input signals, based on the two input signals. The gain control means for controlling the gain in the gain control means of the preceding stage in the two multi-stage automatic gain control amplification systems and the gain signal corresponding to the larger input signal by comparing the two input signals. An automatic gain control amplifier comprising: a second-stage gain control means for respectively controlling the gains of the second-stage gain control means in the two multi-stage automatic gain control amplification systems. 2. An automatic gain control amplifier having two multi-stage automatic gain control amplification systems which is used in a space diversity receiver and which inputs two input signals and amplifies each of the input signals. A first amplifier for inputting and amplifying a first input signal of, and a first voltage controlled attenuator for inputting and attenuating an output of the first amplifier,
A second amplifier for inputting and amplifying the output of the first voltage-controlled attenuator; a second voltage-controlled attenuator for inputting and attenuating the output of the second amplifier; A third amplifier for inputting and amplifying the second input signal of
A third voltage-controlled attenuator for inputting and attenuating the output of the third amplifier, a fourth amplifier for inputting and amplifying the output of the third voltage-controlled attenuator, and a fourth amplifier of the fourth amplifier A fourth voltage controlled attenuator for inputting and attenuating an output; and the first
A first detector for detecting the level of the input signal of, a first loop filter having the output of the first detector as an input, and an output of the first loop filter for amplification and A fifth amplifier that outputs a control voltage for controlling the amount of attenuation in the first voltage-controlled attenuator, a second detector that detects the level of the second input signal, and an output of the second detector. The second loop filter as an input and the output of the second loop filter are input and amplified to obtain the third loop filter.
A sixth amplifier that outputs a control voltage for controlling the amount of attenuation in the voltage controlled attenuator, and an output of the first loop filter and an output of the second loop filter are compared, and The first comparator that outputs a signal corresponding to the larger input signal is compared with the output of the fifth amplifier and the output of the first comparator, and the second comparator is based on the comparison result. A second comparator for outputting a control voltage for controlling the amount of attenuation in the voltage controlled attenuator of
A third voltage that compares the output of the sixth amplifier with the output of the first comparator and outputs a control voltage for controlling the amount of attenuation in the fourth voltage controlled attenuator based on the comparison result.
2. The automatic gain control amplifier according to claim 1, further comprising: