JPH01243709A - Acoustic signal amplifier - Google Patents

Abstract

PURPOSE:To prevent the distortion of an output at the time of an excessive input, and to increase the output voltage of the whole device by providing a means to suppress an input signal level to a second amplifier between a first amplifier and the second amplifier when the output of the second amplifier exceeds a set level. CONSTITUTION:In an acoustic signal amplifier 10, the acoustic signal from an acoustic signal device 11 of a magnetic tape reproducing device, etc., is level-adjusted by a volume 12, and then, it is amplified by a first amplifier 13. The output of the first amplifier 13 is inputted to an additional amplifier 18, attenuated by an attenuator 14, and inputted through a limitter 15 having a level compressing function to a second amplifier 16. The output of the second amplifier 16 is made into a sound by a loud speaker 17 and fed back to the limitter 15.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to an audio signal amplification device suitably implemented in, for example, an audio signal reproducing device mounted on an automobile or the like.

Prior Art FIG. 5(1) shows the electrical configuration of a typical prior art, and FIG. 5(2) shows its level diagram. In an audio signal amplification device 1 installed in a car or the like, an audio signal from an audio signal source 5 such as a magnetic tape playback device is level-adjusted by a volume 2, and then sent to an amplifier 3.
After being amplified by the speaker 4, the signal is amplified by the speaker 4. Generally, in such an acoustic signal amplification device 1, when the margin V1 of the volume 2 is set within a predetermined range,
It is designed so that the rated output level can be obtained for the rated input level.

Normally, in the case of a popular type, the output power of the amplifier 3 used in such an acoustic signal amplification device 1 is about several W, and if it is not possible to obtain a sufficiently satisfactory sound pressure level for the sound emitted from the speaker 4. There is a time. In order to solve this problem, a configuration in which other amplifiers with large output power are connected in series can be considered.
In such a configuration, if an excessively large acoustic signal is input, distortion will occur in the output of the amplifier 3.

Problems to be Solved by the Invention An object of the present invention is to provide an acoustic signal amplification device that can prevent the occurrence of output distortion even in the event of excessive input, and can significantly increase the output power of the entire device. That's true.

Means for Solving the Problems The present invention provides: a second amplifier connected in series to a first amplifier; a second amplifier connected between the first amplifier and the second amplifier; The acoustic signal amplification device is characterized in that it includes a level suppressor that suppresses the input signal level to the second amplifier when the output exceeds a predetermined level.

The present invention also provides a second amplifier connected in series to the first amplifier, and a second amplifier connected between the first amplifier and the second amplifier, the output of the second amplifier being at a predetermined level. Case 3
level suppressing means for suppressing the input signal level to the second amplifier; detecting means for detecting that the second amplifier is connected to the first amplifier; and attenuating means for attenuating the input signal level of the amplifier l\.

Function According to the present invention, since the first amplifier and the second amplifier are connected in series, the output power of the entire device can be significantly increased. Furthermore, when the output of the second amplifier exceeds a predetermined level, the level suppressing means can suppress the level of the input signal to the second amplifier. This makes it possible to prevent distortion in the output of the second amplifier when an excessive input occurs.

Furthermore, according to the present invention, the detection means can detect that the second amplifier is connected to the first amplifier. When the connection of the second amplifier is detected, attenuation means are responsive to the output of said detection means, thereby attenuating the input signal level to the first amplifier. By providing such an attenuation means, it is possible to further strengthen the prevention of distortion in the output of the second amplifier at the time of excessive input.

Embodiment FIG. 1 (1) shows an electrical configuration of an embodiment of the present invention, and FIG. 1 (2) shows its level diagram. In the acoustic signal amplification device 10, for example, an acoustic signal it! of a magnetic tape playback device, etc. After the sound signal from Xll is level-adjusted by a volumetric volume 12, it is amplified by a first amplifier 13.

The output of the first amplifier 13 is attenuated by an attenuator 14 and provided to a second amplifier 16 via a limiter 15 having a level compression function, which will be described later. The output of the second amplification unit 16 is converted into sound by a speaker 17 and is fed back to the limiter 15 . Hereinafter, the attenuator 14, limiter 15, and second amplifier 16 will be referred to as an additional amplification device 18.

Referring to the ring 11 shown in (2) 1211 in the same figure, when the margin 2 of the volume 12 is within a predetermined range with respect to the rated input level, the output of the first amplifier 13 is at the rated output level. The amplification degree is designed so that The rated output level obtained by the first amplifier 13 is attenuated by the attenuator 14. Here, the output of the first amplifier 13 is set to a voltage level that can be easily handled by the next limiter 15. The output of the attenuator 14 is amplified by the second amplifier 16 via the limiter 15, and
The rated output level of the amplifier 16 is applied to the speaker 17, and this is converted into sound.

- At the time of large input (see the dashed line 12 shown in (2) IIJ in the same figure)
Although the output of the first amplifier 13 exceeds its maximum output level, the output level is suppressed by the attenuator 14 and further suppressed by the limiter 15. That is, the limiter 15 is connected to the second amplifier 16
Therefore, the maximum output level is derived from the second amplifier 16 and is given to the speaker 17.

When the output level of the second amplifier 16 exceeds a predetermined level, the limiter 15 instantly (for example, 1 m
The output level is suppressed within 5 ec), and the level suppressing function continues to operate until approximately 300 m sec 1 msec.

By providing such a limiter 15, an excessive and rapidly changing acoustic signal is not applied to the speaker 17, and is suppressed to a level that is audibly preferable.

FIG. 2 (1) shows the electrical configuration of the embodiment of the pond of the present invention, and FIG. 2 (2) shows its level diagram. This embodiment is similar to the first embodiment. Corresponding structures are given the same reference numerals.

What should be noted in this embodiment is that a switching means 22 for selecting an arrate 21 and an ↑/- 21 is interposed between the volume 12 and the first amplifier 13, and additional The amplifying device 18 is the first amplifying device 2;1
3 is provided with a detection means 23 for detecting whether or not it is connected to the terminal 3.

That is, the output of the volume controller 12 is applied to the arachator 21 and also to one terminal 25 of the switching means 22. The output of the attenuator 21 is applied to the other terminal 26 of the switching means 22.

A common terminal 27 of the switching means 22 is connected to the first amplifier 13 . The operation of this switching means 22 is based on the detection means 2.
Controlled by 3.

For example, if the additional amplification device 18 is not connected to the first amplifier 13, the detection means 23 controls the switching means 22 so that the common terminal 27 is connected to the one terminal 25. On the other hand, when the additional amplifying device 18 is connected to the first amplifier 13, the common terminal 27 of the switching means 22 is connected to the other terminal 26 by the detecting means 23. That is, additional amplification device 1
8 is not connected, the output of the volume 12 is directly given to the first amplifier 13, and when the additional amplifier 18 is connected, the output of the volume 12 is given to the first amplifier 13 via the attenuator 21. controlled.

The reason why the attenuator 21 is provided when the additional amplifier device 18 is connected is as follows. That is, the limiter 15 is installed in the additional amplifier 18 to prevent output distortion.
This is because even if such a device is provided, it will be impossible for the additional amplification device 18 to prevent the distortion that has already occurred in the output of the first amplifier 13 when the input is excessive. In other words, the attenuator 21 is provided to prevent the output of the first amplifier 13 from being distorted.

For example, at the time of a large input (see the dashed dotted line 12 in FIG.
The rated output level can be obtained without exceeding the maximum output level. Therefore, the additional amplifier device 18 is not affected by the distortion.

For reference, at the time of large input in the first embodiment (see dashed line 12 in FIG. 1(2)), the first amplifier 1
3's output exceeds its maximum output level, which may cause distortion. This distortion effect is exerted on the additional amplification device 18. However, in the second embodiment, since the attenuator 21 is interposed, the output of the first amplifier 13 can be set to the rated output level even when the input is large, and distortion can be prevented from occurring. It becomes possible to do so.

In this way, in the second embodiment, the output power of all the devices can be significantly increased without causing any distortion in the output of the additional amplifier device 18.

3rd [1] is a block diagram showing an example of the electrical configuration of the detection means 231. The first amplifier 13 has a power supply 30
A power of 1. The additional amplifying device 18 is the first
When connected to the second amplifier 13, the second amplifier 16
Also, the power f is applied by the power source 30 via the detection means 23. With such a configuration, when the additional amplification device 18 is connected, a current flows to the detection means 23, and when it is not connected, no current flows to the detection means 23.
3 can detect whether the additional amplifier device 18 is connected by detecting the presence or absence of this current.

The fourth (2I) is a specific electric circuit diagram near the detection means 23. When the additional amplifier H18 is connected, current flows from the power supply 30 to the second amplifier 16 via the power diode 31. When the base potential of the PNP type transistor 32 is equal to that of the power diode 31 and the resistor R1
becomes lower than the emitter potential due to the voltage drop. Therefore, the transistor 32 becomes conductive, and the base potential of the NPN transistor 33 becomes high via the resistor R2. As a result, the transistor 33 becomes conductive, and current flows through the coil 35 of the relay 34.
is activated. In this way, the switching of the switching means 22
can be controlled.

Another configuration for realizing the detecting means 23 is a connecting connector/lid provided between the additional amplifying device 18 and the first amplifying device 13, which is dedicated to detecting that the additional amplifying device 18 is connected. A configuration can be considered in which a terminal is provided, and when the additional amplifier device 18 is connected, a predetermined voltage is applied to this detection-only terminal. As another configuration, a voltage is applied to the detection-only terminal in advance, and the additional amplification device 18
A configuration in which the terminal is grounded when connected is also conceivable.

As another configuration of the detection means 23, a configuration may be used in which the connection of the additional amplification device 18 is mechanically detected at the connection connector, and this is detected by, for example, turning on/off a switch or the like. good.

Effects of the Invention As described above, according to the present invention, distortion of the output of the second amplifier can be prevented, and the output power of the entire device can be significantly increased.

[Brief explanation of the drawing]

FIG. 1 (1) is a block diagram showing the electrical configuration of an embodiment of the present invention, FIG. 1 (2) is its level diagram, and FIG.
I2I(1) is a block diagram showing the electrical configuration of another embodiment of the present invention, I2I(2) is its level diagram, FIG. 3 is a block diagram showing the electrical configuration near the detection means 23, and FIG. The figure shows a specific electrical circuit diagram around the detection means 23, FIG. 5(1) is a block diagram showing the electrical configuration of a typical prior art, and FIG. 5(2) is a level diagram thereof. 10... Acoustic signal amplification device, 11... Acoustic signal source,
12... Volume \, 13... First amplifier, 14
．． 21...Attenuator, 15...Limiter, 16
...Second amplifier, 17...Speaker, 18...
Additional amplification device, 22...Switching means, 23...Detection means Agent Patent attorney Number of strokes Keiichi Figure 5

Claims (2)

[Claims] (1) a second amplifier connected in series to the first amplifier; and a second amplifier connected between the first amplifier and the second amplifier, wherein the output of the second amplifier exceeds a predetermined level. an acoustic signal amplifying device, comprising: level suppressing means for suppressing the input signal level to the second amplifier when (2) a second amplifier connected in series to the first amplifier; and a second amplifier connected between the first amplifier and the second amplifier, wherein the output of the second amplifier exceeds a predetermined level. level suppressing means for suppressing the input signal level to the second amplifier when the second amplifier is connected to the first amplifier; and detecting means for detecting that the second amplifier is connected to the first amplifier; an attenuation means for attenuating the input signal level to the first amplifier.