JPH071903B2 - Simultaneous call type intercom - Google Patents

Description

TECHNICAL FIELD The present invention relates to a simultaneous call type intercom.

(Background Art) FIG. 1 is a block diagram of a conventional simultaneous call intercom system, in which (2 ₁ ) and (2 ₂ ) are intercoms, and voice signal lines (1 ₁ ) (1 ₂ ) Is connected by. (6) is a microphone, and the sound signal from this microphone (6) is amplified by the amplifier (7). The audio signal from the amplifier (7) of the intercom (2 ₁ ) is amplified by the amplifier (8) of the other intercom (2 ₂ ) via the audio signal line (1 ₁ ) and its output is a speaker. It is output as voice by (9). Moreover, the intercom (2 ₂₎ also has a microphone (10), the audio signal input by the microphone (10) is Zohaba by Zohaba (11), the audio signal line (1 ₂₎ It is sent to the intercom (2 ₁ ) via the intercom (2 ₁ ) and is amplified by the amplifier (12) in the intercom (2 ₁ ) and further output as voice by the speaker (13).
That is, the voice input by the microphone (6) of the intercom (2 ₁ ) is amplified by the amplifiers (7) (8), and the voice is output from the speaker (9) of the intercom (2 ₂ ).
The voice input from the microphone (10) of the intercom (2 ₂ ) passes through the amplifiers (11) (12) and is output from the speaker (13) of the intercom (2 ₁ ). However, according to this method, the sound input to the microphone (6) is output to the speaker (9), is input to the microphone (10), is output to the speaker (13) on the intercom (2 ₁ ) side, and further, This voice output is input to the microphone (6) again. Therefore, this voice is the microphone (6), the amplifier (7), the audio signal line ( ₁₁ ), the amplifier (8), the speaker (9), the microphone (10), the amplifier (11). , Audio signal line (1 ₂ ), amplifier (12), speaker (13), microphone (6)
However, if the amplification factor of the closed loop exceeds 1, then howling occurs and there is a problem that the call is disturbed.

(Object of the Invention) The present invention is provided in view of the above-mentioned points, and at the same time as detecting howling, the howling frequency is attenuated by a band elimination filter to prevent howling, thereby enabling a good call. It is intended to provide a simultaneous call intercom for the purpose of doing so.

DISCLOSURE OF THE INVENTION Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 2 shows a block diagram of the intercom (2), showing only a block diagram for receiving a voice signal from a partner station and outputting a voice, and an input unit such as a microphone is omitted.
In the figure, (5) is a voltage-controlled band elimination filter (hereinafter abbreviated as VCF), and this VCF (5) has frequency characteristics as shown in Fig. 5, and is near the cutoff frequency fc. There is a large amount of attenuation at, and the amount of attenuation at other frequencies is OdB. Further, this VCF (5) gives a DC voltage as a control signal, and the value of the DC voltage determines the breaking frequency fc, and when the DC voltage is changed, the bending frequency fc also changes accordingly. To do. Then, an audio signal from the audio signal line (1) is input to the VCF (5), its output is amplified by the amplifier (8), and is output as audio from the speaker (9). (3) is a comparator which receives an audio signal from the audio signal line (11) as an input and outputs a control signal as an output. This comparator (3) is provided when a certain frequency component such as an audio signal exceeds a certain value. It outputs a signal. That is, when howling occurs in the closed loop, the amplitude of the signal corresponding to the howling frequency increases, and the increased signal (howling) is detected. (4) is a PLL circuit whose on / off is controlled by the output of the comparator (3), which inputs the audio signal from the audio signal line (1), especially the howling frequency, and outputs a DC voltage corresponding to the frequency. . When the control signal is output from the comparator (3), the above DC voltage is output from the PLL circuit (4), and this DC voltage is input to the VCF (5) to set the interlocking frequency and the cutoff frequency fc. To do. That is, VCF
(5) Corresponds to the voltage conversion of the howling frequency in the PLL circuit (4) and the conversion of the voltage of VCF (5) to the bending frequency fc so that the breaking frequency fc and the howling frequency match. The VCF (5) attenuates the howling frequency when the howling occurs. The comparator (3), PLL circuit (4), VCF
(5) constitutes howling prevention means.

Next, the operation will be described. In FIG. 2, an audio signal as shown in FIG. 3 is input to point A on the input side of the intercom (2) via the audio signal line (1). Here, the comparator (3) outputs a control signal when the level of the audio signal exceeds the point A ₁ to drive the PLL circuit (4) to turn it on. Since the level does not reach the A ₁ point, the control signal is not output from the comparator (3) and the PLL circuit (4) does not operate.
Therefore, the cutoff frequency fc of the VCF (5) is out of the voice band, and the input voice signal is hardly attenuated by the VCF (5), and the speaker (9) is passed through the amplifier (8). )
It is output as more sound. As described above, the waveform when the normal voice is input to the point A has a waveform as shown in FIG. 3, but when the gain of the closed loop exceeds 1, the waveform becomes the fourth waveform.
As shown in the figure, a certain frequency component is amplified and howling occurs. When the frequency component of howling exceeds the level at point A ₁ shown in FIGS. 3 and 4, the comparator (3) outputs a control signal for turning on the PLL circuit (4). When the PLL circuit (4) is turned on, the howling sound is input to the PLL circuit (4), and the PLL circuit (4) outputs a DC voltage proportional to the howling frequency.
Supply to F (5) to control VCF (5). PLL
The signal input to the circuit (4) is a wideband signal including the howling frequency, and the comparator (3) outputs a control signal when the level is a certain value or more regardless of which frequency the PLL circuit outputs. Turn on (4). In this way, when the PLL circuit (4) is turned on by the comparator (3), only the howling frequency is input to the PLL circuit (4), and a wideband signal including the howling frequency is input. So, in general, PLL
It cannot be concluded that the output of the circuit (4) is a DC voltage proportional to the howling frequency only.

That is, the waveform of the audio signal in the normal state is as shown in FIG. 3, which is a synthetic waveform of 100 Hz to 3 KHz.

However, when howling occurs, the circuit is in an oscillating state and the level of the howling frequency signal (howling occurs at a frequency of 1 KHz) becomes extremely high, so the waveform when howling occurs is as shown in Fig. 4. Can be regarded as a sinusoidal signal of almost single frequency, and therefore PL
In the L circuit (4), a DC voltage output that is almost proportional to the howling frequency is obtained. That is,
In VCF (5), the applied DC voltage causes a resonance frequency fc that coincides with the howling frequency, and the frequencies around the resonance frequency fc (howling frequency) are attenuated and other frequencies are affected. It will be output without receiving. Therefore, even if the audio signal input to the point A causes howling, the howling frequency is attenuated by VCF (5) and then input to the amplifier (8) and output from the speaker (9). The closed-loop gain of the frequency also drops below 1, and howling stops. Also, the audio signal is VCF
The sound is output to the speaker (9) because it is directly input to the amplifier (8) without being attenuated by (5). The circuit of FIG. 2 does not need to be particularly connected to the front side of the amplifier (8) and may be installed at any position of the closed loop formed by the audio signal.

(Advantages of the Invention) As described above, the present invention provides a comparator that outputs a control signal when a certain frequency component that has been increased due to the howling phenomenon is at a certain level or more, and a control signal from this comparator. Driven by the PLL circuit, the signal level is extremely high when howling occurs, and it is considered as a sine wave signal of almost a single frequency.A PLL circuit that outputs a DC voltage that is almost proportional to the howling frequency and a DC voltage supplied from the PLL circuit Has a break frequency and a frequency that changes in proportion to the voltage value,
Formed by voice signal by forming a howling prevention means with a voltage-controlled band elimination filter that outputs a voice signal corresponding to the howling frequency with a break frequency set by the DC voltage output from the PLL circuit. Since howling prevention means is inserted in the closed loop where howling occurs, if howling occurs in the closed loop, the comparator detects the howling and drives the PLL circuit on by the control signal, and the howling is performed in the PLL circuit. A DC voltage that is almost proportional to the frequency is sent to VCF, and by this DC voltage, the howling frequency component corresponding to the howling frequency is cut off and the howling frequency component is attenuated to reduce the gain in the closed loop to 1 or less. Simultaneous call that suppresses and eliminates howling, and therefore enables good calls In which an effect that can provide intercom.

[Brief description of drawings]

FIG. 1 is a block diagram of a conventional example, FIG. 2 is a block diagram of an embodiment of the present invention, FIG. 3 is a normal voice waveform diagram of the same, FIG. 4 is a howling waveform diagram of the same, and FIG. Is the same as above
It is a frequency characteristic figure of VCF. (1) is a voice signal line, (2) is an intercom, (3) is a comparator, (4) is a PLL circuit, (5) is a voltage-controlled band elimination filter, and fc is a break frequency.

Claims (1)

[Claims] 1. In a simultaneous call type intercom capable of simultaneous talking between interphones connected via an audio signal line, a certain frequency component, which has been increased due to a howling phenomenon, has a certain level or more. Driven by the control signal from this comparator and the control signal from this comparator, the signal level is extremely high at the time of howling occurrence, and it is almost proportional to the howling frequency which is regarded as a sine wave signal of almost a single frequency. A PLL circuit that outputs a DC voltage and a switching frequency that changes in proportion to the value of the DC voltage applied from the PLL circuit, and a switching frequency that is set by the DC voltage output from the PLL circuit. , A howling prevention means is formed by a voltage control type band elimination filter that outputs an audio signal corresponding to the howling frequency, and is formed by an audio signal In closed loop feedback occurs that, simultaneous calls type interphone, characterized in that formed by inserting the howling prevention means.