KR20010100670A - Microphone for Preventing Howling - Google Patents

Abstract

The present invention relates to a microphone for howling prevention, and in particular, a howling for detecting and removing a howling phenomenon caused by noise organic and re-input of a speaker output signal by a potential difference between two signals transmitted to both input terminals of a differential amplifier. It relates to a prevention microphone.

The anti-howling microphone according to the present invention includes two microphone units, each of which is disposed so that the front faces the opposite directions, so that only pure original sound is inputted by realizing a phase difference due to their directionality and external sound unnecessary for the original sound. It controls to differentiate output state when additionally input. Howling generation detection means for receiving output signals of the two microphone units to both input terminals and detecting whether howling is generated by the potential difference between the two input signals, and whether switching is controlled according to the output signal of the howling generation detection means, thereby amplifying the signal. Switching means for controlling whether or not the potential transfer to.

Description

Microphone for Preventing Howling

The present invention relates to a microphone installed in a communication device, a sound device, and the like, and more particularly, to a howling prevention microphone for preventing a howling phenomenon caused by re-input of a voice signal generated from a speaker.

In general, in a device such as a communication device and a sound device using a microphone and a speaker, a positive feedback loop in which the voice output from the speaker is re-input into the microphone, re-amplified through an amplifier, and then output to the speaker as side sound Is formed. As a result, a howling phenomenon, which is a phenomenon of generating unnecessary audible frequency tones due to low frequency oscillation, frequently occurs.

Therefore, when the volume of the voice and sound input to the microphone and output to the speaker is increased above a predetermined level in the voice output device, the above howling phenomenon occurs and the sound quality of the high output cannot be heard in a good state. This occurred.

As a representative howling prevention method in a communication device equipped with a conventional speakerphone used to remove the howling phenomenon as described above, there is a communication channel opening and closing method. However, in the case of the channel opening / closing method, howling is prevented by connecting a channel of a subscriber having a large voice signal level and opening a channel of a subscriber having a small voice signal level when a telephone call is made between subscribers. Only one-way calls, which must alternately transmit and receive, are possible, but not two-way simultaneous calls, and there is a separate problem in that the section where the syllable starts is cut off due to a certain time required for detecting a voice signal.

In addition, as another representative howling cancellation method, a method of preventing a howling phenomenon by controlling an amplifier gain as an amplifier by using an automatic gain control device has been proposed, but this method also cannot provide good voice information because of uneven voice level. There is a problem.

In addition, a method using two microphones, a method using a mixture of Non-Audibre Tone, a method using a filter bank, etc. are used, but all of them are inherently complicated in hardware compared to the existing internal configuration. have.

The present invention has been made to solve the above-described problem, by detecting the occurrence of the howling phenomenon caused by the noise organic and the re-input of the speaker output signal by the potential difference between the two signals delivered to both input terminals of the differential amplifier and removes it. The technical problem is to provide a howling prevention microphone.

1 is a block diagram schematically showing an acoustic transmission system using the anti-howling microphone according to the present invention.

<Code Description of Main Parts of Drawing>

10, 15: microphone unit 20: howling generation detection means

30: switching means 100: microphone body

200: amplifier 300: speaker

In order to achieve the above technical problem, the howling removal microphone according to the present invention is disposed so that each front side faces in opposite directions, so that a voice signal input from the outside of the main body is in the form of an inverted signal wave having a phase opposite to each other. First and second microphone units which are inputted,

Howling generation detection means for receiving each output signal outputted from the first and second microphone units to both input terminals and detecting whether howling is generated by detecting a phase difference between the two signals;

Switching is controlled according to the output signal of the howling generation detection means, characterized in that it comprises a switching means for controlling whether or not the potential transfer to the signal amplification means.

The above and other objects and features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram schematically illustrating an acoustic transmission system using a howling prevention microphone according to the present invention, in which audio signals supplied from the outside are respectively input with a phase difference of approximately 180 ° and howling by the potential difference between these two signals. The microphone main body 100 for controlling the transmission of the voice signal by detecting the occurrence of the generation, the amplifier 200 receives the microphone signal generated from the microphone main body 100 and amplifies a predetermined level, and the amplifier 200 The connection structure of the speaker 300 for receiving the amplified signal and generating the voice signal to the outside is shown.

The microphone main body 100 has two microphone units 10 and 15 arranged so that their front faces in opposite directions to each other. The two microphone units 10 and 15 oriented by this arrangement structure have a phase difference of approximately 180 ° unless the unwanted sound is input together with the original sound due to external noise organic and re-input of the speaker output signal. While the two audio signals are received in reverse, when unnecessary audio signals are input together with the original sound as described above, they are not nearly completely in phase with each other because they are approached in almost the same phase without showing a certain phase difference. The two phase signals having a small phase difference, or even the same phase, are transmitted through respective signal input stages.

The output signals of the two microphone units 10 and 15 disposed as described above are input to the base terminals of each of the two bipolar transistors T1 and T2 constituting both input terminals of the differential amplifier 20 having the current-mirror structure. Here, the potential difference between the two signals transmitted to both input terminals, that is, the output signals of the two microphone units 10 and 15 is detected. By this principle, it is possible to detect whether a howling is generated.

In more detail, when input with the largest phase difference (180 °), that is, in this case, as described above, only the pure original sound that does not generate an external noise organic and re-input of the speaker output signal, etc. , 15). Since the two elements forming the input terminals of both sides of the differential amplifier shown in the figure are composed of npn type bipolar transistors T1 and T2, the microphone unit output signal of the logic high level is inputted. Bipolar transistors are turned on more quickly and current flows quickly to the negative supply (-Vcc) stage. As a result, the potential of the collector terminal of the turned-on bipolar transistor is quickly transferred to the "logic low" level, thereby acting as an operation control signal of the switching means connected to the rear stage.

On the other hand, due to noise induced from the outside and re-input of the speaker output signal, the two output signals output through the two microphone units 10 and 15 do not exhibit a complete 180 ° phase difference and have a minute potential difference and the differential amplifier When it is delivered to both input terminals (the base ends of each of T1 and T2) of (20), it is in a state that does not affect the output much.

The selective operation of the microphone may be detected by the selective operation of the differential amplifier 20 as described above. The howling generation detection signal generated as described above is a pnp-type bipolar transistor constituting the rear switching unit 30. It is delivered to the base end of T3 to control whether it is turned on. In the case of the figure, the differential amplifier output signal with only the pure original sound input to both microphone units 10 and 15 without external noise organic matter and re-input of the speaker output signal is said to be at the logic low level. It is assumed that the device constituting the switching means 30 is implemented by the pnp-type bipolar transistor T3, and the switching element constituting the switching means 30 when the differential amplifier output signal is output in an opposite logic state. An npn type bipolar transistor may be suitable as (T3).

In addition, in the embodiment shown in the figure, both input elements T1 and T2 and the switching element T3 of the differential amplifier are implemented as bipolar transistors, but this is only one embodiment. It can be said that it is also possible to implement the device.

Referring to the operation of the present invention having the above configuration, first, in the state where only pure original sound is input to both microphone units 10 and 15 without external noise organic and re-input of a speaker output signal, the differential amplifier 20 ) Output signal is output in the state of turning on the switching element (T3) connected to the rear end and outputs + Vcc to the amplifier 200 to amplify the original sound and then to the outside through the speaker 300 Let's go.

On the other hand, when a howling phenomenon occurs due to noise organic input from the outside and re-input of a speaker output signal, the output signal of the differential amplifier 20 may be controlled to turn on the switching element T3. It becomes impossible to realize the power supply to the amplifier 200 connected to the rear stage. As a result, when unnecessary external sound is input into the microphone together with the original sound, the final output signal is controlled in such a state that it cannot be amplified through the amplifier 200, and only the original sound is canceled in the speaker 300 while the unnecessary sound signal is canceled. This can be amplified and output.

The above-described embodiment is only one embodiment which is considered to be the most suitable for the present invention, and the above technique is a microphone / speaker device used in an auditorium, a broadcasting facility used in a broadcasting station, a wired / wireless communication device using a speakerphone, and the like. It can be applied to all devices equipped with a microphone and a speaker such as an audio device.

In addition, preferred embodiments of the present invention are disclosed for the purpose of illustration, and those skilled in the art will be able to make various modifications, changes and additions within the spirit and scope of the present invention, such modifications and changes are within the scope of the claims It should be seen as belonging.

As described above, the howling-prevention microphone according to the present invention transmits the output signals of two microphone units arranged in front of each other in opposite directions without any complicated hardware configuration to both input terminals of the differential amplifier. It is possible to detect the occurrence of the howling phenomenon simply by the potential difference of, and by controlling the power supply to the amplifier by the detected signal, it is possible to amplify and output only the original sound signal while removing the howling signal. Excellent effect.

Claims (4)

First and second microphone units each having a front surface facing in opposite directions to receive voice signals input from the outside of the main body in the form of signal phases opposite to each other; Howling generation detection means for receiving each output signal outputted from the first and second microphone units to both input terminals and detecting whether howling is generated by detecting a phase difference between the two signals; Howling prevention microphone, characterized in that it comprises a switching means for controlling whether or not switching the potential transfer to the signal amplification means in accordance with the output signal of the howling generation detection means. The method of claim 1, The howling generation detecting means is a howling prevention microphone, characterized in that configured as a differential amplifier of the current-mirror structure. The method of claim 1, And said switching means is comprised between a power supply voltage supply stage and an output stage, and comprises a bipolar transistor to which an output signal of said howling generation detection means is input to a base stage. The method of claim 1, The switching means is connected between a power supply voltage supply stage and an output terminal, and a howling prevention microphone, characterized in that consisting of a MOS transistor to which the output signal of the howling generation detection means is input to the gate end.