JPS5883415A - Amplitude limiter - Google Patents

Abstract

PURPOSE:To prevent the distortion due to saturation of audio equipment, by splitting an input signal into a plurality of frequency bands and limiting the amplitude of the split signal. CONSTITUTION:A signal inputted to an input terminal 1 is split into a plurality of frequency bands with a plurality of filters 2a, 2b-2m. The signals band-split are limited for the amplitude at amplitude limiters 3a, 3b-3m, applied to filters 4a, 4b-4m, and picked up at an output terminal 5 via an adder 4n synthesizing the outputs. In setting the limit of amplitude to a level lower than the saturation level of amplifiers and speakers connected to the output terminal 5, the saturation of the amplifiers and speakers can be prevented.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an amplitude limiting device used in various types of audio equipment, which removes harmonic distortion caused by clipping of an amplifier (hereinafter referred to as an amplifier), saturation of a speaker, etc. at the time of a large input. The purpose is to

All devices that handle audio signals, such as audio amplifiers and speakers, have a limit to the signal level they can handle, and signals exceeding this level will saturate and generate distortion.

If the input signal at that time is a single tone or only overtones, even if it is distorted, the only component is the overtones, so it will not cause much discomfort.

However, the input signal has multiple sounds (chords, etc.) that are not related to overtones.
In this case, the distortion produces a sound unrelated to the input signal or its harmonics, that is, cross-modulation distortion, resulting in a very unpleasant sound.

Soft clipping and automatic volume control have traditionally been used to improve these problems.

Soft clip suppresses the occurrence of high-order harmonic distortion by slowly saturating the amplifier, etc.
This is intended to suppress the irritating sound caused by sudden lips. However, even with the soft crimp method, low-order distortion occurs, and the distortion characteristics in that region are still slightly lower than the original clip level of the amplifier and gradually enter the nonlinear region. There was a problem that it got worse than the characteristics.

Furthermore, automatic volume control lowers the gain when the signal level approaches the clip level to prevent clipping. However, this method has the problem that even if the signal level of only a part of the frequency band of the input signal is high, the overall gain is reduced, which impairs the power of the sound.
Because there is a time lag between the input level change and the control, the volume immediately after a large input may be suppressed to a low level, or
Immediately after a large input, the noise disappears and then appears after a while, creating a very unnatural feeling.

The present invention provides an amplitude limiting device that solves the above problems.

A first embodiment, which is the basis of the present invention, is shown in FIG. 1st
In the figure, 1 is an input terminal, 2 is a plurality of filters 2a, 2b, 2 that divide the input signal into a plurality of paddle wave number bands.
c, band dividing means consisting of 2 m, 3 a plurality of amplitude limiters 3 which limit the amplitude of each band divided signal;
a, 3b, 3c, . . . 3m amplitude limiting means; 4 is a plurality of filters 4a that pass components of bands corresponding to respective frequency bands of each amplitude-limited signal;
4b, 4c, . . . 4m and an adder 4n for combining their outputs. 6 is an output end.

Now, if you set the limit amplitude to a level slightly lower than the saturation level of the amplifier or speaker connected to the output side, when a large input signal is input, the level of the frequency components of the input signal will be reduced. Only the large frequency components are amplitude limited by the amplitude limiting means 3, and the other frequency components pass through without being amplitude limited and are synthesized by the band synthesizing means 4, so the level at the output end 5 is the same as the original. The amplitude is limited compared to the level of , and saturation of amplifiers and speakers can be prevented to some extent.

Furthermore, by setting the frequency interval to be divided to one octave or less, harmonic distortion and cross-modulation distortion due to nonlinearity of the amplitude limiting means 3 can be removed. That is, the harmonic distortion components are removed because they are frequency components higher than each pass band of the band synthesis means 4. Regarding cross-modulation distortion, the sum of a plurality of frequency components in each pass band of the band dividing means 2 is a higher frequency component than each pass band of the band combining means 4, and the difference is the frequency component in each pass band of the band combining means 4. Any frequency components lower than the passband are removed. In addition, as shown in FIG.
Since intermodulation distortion components of frequencies lower than that are not audible, a low-pass filter may be used, and the filter 4a having the highest frequency band may also be a high-pass filter.

As mentioned above, the configuration shown in Figure 1 alone can prevent saturation of the amplifier and speakers to some extent, but even if the level of each frequency component is low, depending on their phase relationship, the synthesized signal The level becomes louder and may even exceed the saturation level of the amplifier or speaker. In order to prevent this, if the limiting amplitude of each amplitude limiting means 3 is set sufficiently low, then when a single tone is input, the level will be much smaller than the saturation level of the amplifier or speaker. The problem arises that it is limited to

A second embodiment of the present invention that solves the above problems is shown in FIG. This is because the level of the output end 7 of the amplifier 6 connected to the output end 6 of the band synthesis means 4 is detected by the level detection means 8, and when the level approaches the clip level of the amplifier 6, the amplitude limiting means 3 By controlling the limiting amplitude to be small, the amplitude is limited to a point where the amplifier 6 does not clip. Furthermore, until the level of the amplifier 60 approaches the clip level, the limiting amplitude of the amplitude limiting means 3 is set at a sufficiently high level, so that even for a single tone input, the above-mentioned level shortage does not occur. In the embodiment shown in FIG. 2, the level detection is performed at the output end of the amplifier 6, but it may be performed at the input end of the amplifier 6.

By the way, in the embodiment shown in FIG.
Therefore, the limiting amplitudes of the large number of amplitude limiters 3a to 3m of the amplitude limiting means 3 must be controlled in conjunction with each other, which becomes quite complicated.

Therefore, the same function as the embodiment shown in Fig. 2 can be implemented more easily.
A third embodiment of the present invention that has been realized is shown in FIG. This means that the limited amplitude of the amplitude limiting means 3 is fixed, and the input side of the band dividing means 20 and the output side of the band combining means 4 are
Variable level means 9, 1 that change in conjunction with each other in opposite directions
0 is provided, and when the level of the amplifier 60 approaches the clip level, the level of the variable level means 9 on the input side increases, and conversely, the level of the variable level means 1 degree on the output side decreases by that amount. , by controlling the level detection means 8, it is possible to equimetrically control the limiting amplitudes of all the amplitude limiting means in each band.

Next, a method for preventing speaker saturation will be explained.

When a large input is applied to a speaker, its saturation mode is
Depends on frequency. Regarding the low range of each speaker unit, a large input can cause the voice coil to jump out of the magnetic field, or the damper or edges to become stiff, resulting in a so-called bottoming out phenomenon. Furthermore, in the high range, distortion is likely to occur at the changing frequency of the split resonance mode. Furthermore, in a so-called multi-way speaker system configured by combining a plurality of speaker units, there are many distortion modes. The level at which these distortions occur varies greatly depending on the frequency.

Therefore, in the embodiment shown in FIG. 1, the limiting amplitude of each amplitude limiter 3a to 3m of the amplitude limiting means 3 is set to a level corresponding to the distortion generation limit level at each frequency of the speaker to be used. By doing so, you can prevent distortion from occurring in the speakers.

Setting each limit amplitude can be done by connecting an oscillator to the input, changing its level and frequency, and listening to the distorted sound with your ears, but this method is very time-consuming and accurate. Difficult to set up.

Therefore, the fourth aspect of the present invention is to automatically perform this process.
An example of this is shown in FIG. This takes advantage of the fact that when distortion occurs in a speaker, a distortion component appears in the current, and first, the oscillator 11 sequentially oscillates signals of frequencies corresponding to the pass band frequency of the band dividing means 20, and then the speaker 12 is driven, its current is detected by a resistor 13, and the detected signal is passed through a band removing means 14 in which the oscillation frequency component is removed to detect a distortion component of the speaker current, and the distortion component is set to a predetermined level. When the frequency exceeds the frequency range, the level of each frequency component is limited to below the distortion generation level of the speaker by controlling the limiting amplitude of the amplitude limiting means 3 corresponding to that band to be small.

Such operations include sequential switching of the oscillation frequency and band rejection frequency, control and maintenance of the limited amplitude, switching of the input switching switch after setting, and switching of the shorting switch 17 of the speaker current detection resistor 13. The commands are issued by a control means 16 such as a microcomputer.

In the embodiment of FIG. 4, the oscillator 11
are provided and their oscillation frequencies are sequentially switched, but the filters 2a to 2m of the band dividing means 2 may be switched to change their pass band frequencies and this may be utilized.

The amplitude limiting device according to the present invention not only prevents distortion caused by the saturation of amplifiers and speakers as described above, but also can be used in front of audio equipment such as recorders, record cutting equipment, and broadcast modulators. By using these, it is possible to prevent distortion due to saturation at the time of large input.

As described above, the present invention divides an input signal into a plurality of frequency bands, limits the amplitude of each band-divided signal, and extracts the components of the band corresponding to each frequency band of each amplitude-limited signal. Since it is designed to be synthesized in a common manner, harmonic distortion and cross-modulation distortion caused by saturation of audio equipment can be prevented, and an audio device with no level fluctuations or noise fluctuations can be realized, which is an excellent effect. is obtained.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a first embodiment of the present invention, FIG. 2 is a block diagram of a second embodiment of the present invention, FIG. 3 is a block diagram of a third embodiment of the present invention, and FIG. The figure is a block diagram of a fourth embodiment of the present invention. 1... Input, end, 2... Band dividing means, 3... Amplitude limiting means, 4... Band combining means, 6...・Output end, 6...Baker, 8...Level detection means, 9...First
variable level means, 1o... second variable level means, 11... oscillator, 12... speaker, 13... detects the current of the speaker Means, 14... Band removal means, 16... Control means.

Claims (1)

[Claims] (1) Band division means for dividing an input signal into a plurality of frequency bands, amplitude limiting means for limiting the amplitude of each of the frequency bands, and each of the amplitude-limited signals. an amplitude limiting device comprising: band synthesis means for passing and synthesizing band components corresponding to the frequency band of . (2. In claim 1, the amplitude limiting device is characterized in that the input signal is band-divided at intervals of approximately one octave or less. (3) In claim 1, (4) An amplitude limiting device characterized in that the limiting amplitude of the amplitude limiting means is set to a level slightly lower than the clip level of an amplifier connected to the output side of the band synthesizing means. band dividing means for dividing into bands; amplitude limiting +L1 for limiting the amplitude of each of the above-mentioned band-divided signals; - L-synthesizing by passing components of bands corresponding to respective frequency bands of the above-mentioned amplitude-limited signals; It is composed of a band synthesis means and a level detection means for detecting the output level of the band synthesis means, and is configured such that the detection level of the level detection means is not too large and the limiting amplitude of the amplitude limiting means is small. An amplitude limiting device characterized by: (6) band dividing means for dividing an input signal into a plurality of frequency bands; amplitude limiting means for limiting the amplitude of each band-divided signal; a band synthesizing means for passing and synthesizing band components corresponding to respective frequency bands of each signal; a first variable level means connected to the input side of the band dividing means; and a second variable level means connected to the output side, and as the output level of the second variable level means becomes larger than a predetermined level, the first variable level is increased and the second variable level is increased. An amplitude limiting device characterized in that the level of the level means is reduced.(6) Band division means for dividing an input signal into a plurality of frequency bands, and a plurality of frequency bands for limiting the amplitude of each of the frequency bands. amplitude limiting means consisting of an amplitude limiter; band synthesis means for passing and synthesizing a portion of the frequency band of each of the amplitude limited signals; and limited amplitude of the plurality of amplitude limiters. (7) In claim 6, the limit amplitude setting means is connected to the input side of the amplitude limiting means, and the limit amplitude setting means is configured to separately set each band. a signal generating means for generating a signal with a frequency corresponding to the passing frequency; a means for detecting a current of a speaker driven by the output signal of the band combining means; and a frequency component generated by the signal generating means from the detected current. 1. An amplitude limiting device comprising: a band removing means for removing the band removing means; and a control means controlling and setting the limit amplitude of each amplitude limiter according to the output signal of the band removing means. (8) The amplitude limiting device according to claim 7, characterized in that the signal generating means is constituted by an oscillator that oscillates at the pass frequency of each band of the band synthesizing means. (9) The amplitude limiting device according to claim 7, characterized in that the output signal of each pass band obtained by switching a plurality of filters of the band dividing means is used as the output signal of the signal generating means. (10) In claim 7, the control means:
Each output signal frequency of the signal generation means, the band removal frequency, and the amplitude limiting means corresponding to each frequency are automatically switched and set in conjunction with each other, and the setting state is memorized and maintained. An amplitude limiting device characterized by: