KR101045518B1 - Directional microphone module - Google Patents

Abstract

PURPOSE: A directional microphone module is provided to cut the high and low frequency bands of a voice signal off, thereby reducing noise. CONSTITUTION: An input signal line(52) transfers a voice signal outputted from a microphone(10). A condenser(53) eliminates noise applied to the input signal line. A filter unit(54) cuts the high and low frequency bands of the voice signal off. A variable resistor(55) adjusts a voice signal passed through the filter unit into a set frequency band. An amplifier(56) amplifies the voice signal which is cut off. An output signal line(57) outputs the amplified voice signal to the outside. A current limiting resistor(58) limits the current components of a voice signal. A microphone bias unit(59) applies a bias voltage.

Description

Directional Microphone Modules {DIRECTIONAL MICROPHONE MODULE}

The present invention relates to a directional microphone module, and to a directional microphone module that can reduce noise by providing a sound wave guide path and a filter in a housing for accommodating the microphone.

Microphones are classified into omni-directional (directional) microphones and directional microphones according to directivity characteristics, and directional microphones are classified into bi-directional microphones and uni-directional microphones.

The bidirectional microphone exhibits a characteristic of faithfully reproducing sound incident to the front and rear thereof and attenuating the sound incident from the side. Thus, bidirectional microphones are useful for speech recognition in noisy spaces. The directional microphone also has a hole in the case through which sound can pass. Holes are typically formed in the front side and the back side of the microphone, respectively.

However, when the microphone is used as a voice recognition device, there was a limit to increase the voice recognition performance due to noise.

The present invention provides a directional microphone module that can reduce noise by providing a sound wave guide path and a filter for noise reduction in a housing accommodating the microphone.

In another aspect, the present invention is to provide a directional microphone module that can easily adjust the output signal of the microphone even after the manufacturing is completed.

Directional microphone module according to the present invention is provided with a sound inlet in the front and the rear of the housing is open; A rear cover covering a rear of the housing; A directional microphone installed in the housing and into which sound waves flow into the front and rear surfaces thereof; It is installed in the housing, the front side of the microphone is formed so that the receiving groove for receiving and supporting the microphone on one side of the front portion to be installed opposite to the sound inlet, the other side of the receiving side of the microphone from the sound inlet A microphone support provided with a sound wave guide path for guiding sound waves into a groove; A porous acoustic filter accommodated in the sound wave guide path to reduce noise by attenuating low frequency sound waves introduced into the rear surface of the microphone through the sound wave guide path; And a circuit board installed in the housing and having a control circuit for controlling the output of the microphone.

The control circuit of the circuit board includes a filter unit for cutting off high and low frequency bands from the voice signal output from the microphone, a variable resistor for adjusting the voice signal passing through the filter unit to a set frequency band, and a low frequency and high frequency band through the filter unit. And an amplifier for amplifying the cutoff voice signal.

The circuit board is embedded in the rear side of the microphone support, the rear cover is characterized in that it comprises a control hole formed in a position corresponding to the variable resistor so as to operate the variable resistor from the outside without opening the rear cover do.

In the directional microphone module according to the present invention, the sound wave flowing into one sound inlet of the housing is guided to the front sound inlet of the microphone, and the sound wave flowing into the other sound inlet is introduced into the rear sound wave inlet of the microphone through the sound filter of the sound wave guide path. Therefore, low-frequency sound waves are attenuated among the sound waves flowing toward the rear of the microphone, thereby reducing noise.

In addition, the microphone module of the present invention can further reduce noise by cutting off the high frequency and low frequency bands of the audio signal output from the microphone, and can increase the output since the output audio signal can be amplified by an amplifier.

In addition, since the microphone module of the present invention can control the output signal by operating the variable resistor even after the manufacture is completed, there is an effect that can maintain the output signal in the set frequency band for all products shipped.

1 is a perspective view of a directional microphone module according to the present invention.
2 is a cross-sectional view of the directional microphone module according to the present invention.
3 is an exploded perspective view of the directional microphone module according to the present invention.
4 is a cross-sectional view of a microphone applied to the directional microphone module according to the present invention.
5 is a circuit diagram of a directional microphone module circuit board according to the present invention.
6 is a cross-sectional view of the directional microphone module according to the present invention, showing the operating state of the variable resistor.

Hereinafter, preferred embodiments will be described in detail with reference to the accompanying drawings.

As shown in Figures 1 to 3, the directional microphone module according to the present invention is mounted on an installation place of a vehicle, such as a directional microphone 10, the microphone 10, the sound wave is introduced into the front and rear The housing 20, the rear cover 30 covering the rear of the housing 20, the microphone support 40 installed in the housing 20 and the circuit board 50 are included.

As shown in FIG. 4, the microphone 10 is installed in the cylindrical case 11 having the front sound inlet 11a and the inside of the case 11 and vibrated by the sound wave introduced into the front sound inlet 11a. And a dielectric plate 14 provided inside the case 11 so as to be spaced apart from the diaphragm 12 by the diaphragm 12 and the spacer 13. The conductive powder sintered body, such as nickel or copper, is provided in a closed cylindrical shape to support the dielectric plate 14 in the case 11, to reproduce the front sound and to attenuate the sound in the other direction (back sound). A phase delay unit 15 is formed. In addition, the microphone 10 includes a base ring 16 provided around the phase delay unit 15 so as to be in contact with the inner surface of the case 11, and an electric element such as a transistor or a capacitor. And a circuit board 18 that is electrically connected and forms a back chamber 17 between the phase delay unit 15. The circuit board 18 is provided with a rear sound wave inlet 18a.

When the diaphragm 12 vibrates due to sound waves introduced into the front sound wave inlet 11a, the microphone 10 generates an electric signal while changing the electrostatic field between the diaphragm 12 and the dielectric plate 14. The electrical signal is transmitted to the transistor of the circuit board 18 through the conductive phase delay unit 15, and the transistor amplifies it and outputs it to the outside. On the other hand, the sound wave flowing into the rear sound wave inlet 18a of the circuit board 18 is attenuated in the course of passing through the phase delay unit 15, and the level of the sound wave in the diaphragm 12 is significantly reduced compared to the front sound wave. affect. Accordingly, the microphone 10 exhibits a forward directing characteristic that faithfully reproduces only sound waves introduced through the front sound wave inlet 11a.

In the housing 20, a microphone support 40 and a circuit board 50 for supporting the microphone 10 are provided, as shown in FIG. The housing 20 has a front portion 21 in which a plurality of sound inlets 21a and 21b in the form of slots are formed, and an extension portion extending rearward from the rear surface of the front portion 21 in a substantially rectangular tube shape and having an open rear surface. (22) is provided. In addition, the housing 20 includes a locking jaw 23 provided to protrude from one side of the extension portion 22 so that the housing 20 can be easily mounted in a vehicle or the like, and the front portion 21 opposite the locking jaw 23. It includes a hook hook 24 provided on the back.

The rear cover 30 accommodates the microphone support 40 and the circuit board 50 in the housing 20 and covers the rear surface of the housing 20 so that they do not escape. As shown in FIG. 3, engaging grooves 31 are provided at both edges of the rear cover 30 to couple the rear cover 30 to the housing 20, and the extension part 22 of the housing 20 is provided. ) The engaging protrusions 25 to which the engaging grooves 31 are caught are formed on the outer surface.

The microphone support 40 has an accommodating groove 41 for accommodating and supporting the microphone 10 on one side of the front portion of the microphone 10 so that the front surface of the microphone 10 can be installed to face the rear surface of one sound inlet 21a of the housing 20. Is formed. And the other side of the microphone support 40 spaced apart from the receiving groove 41 to the sound wave from the other sound inlet 21b of the front portion 21 of the housing 20 to the receiving groove 41 on the rear side of the microphone 10. A sound wave guide path 42 is formed to guide. The sound wave guide path 42 is continuously formed on the rear side of the support body 40 so as to communicate with the rear surface of the receiving groove 41, and is separated from other spaces inside the housing 20 by the circuit board 50 being coupled thereto.

As shown in FIG. 3, a circular sealing member 61 having an opening 61a is formed in the center between the front surface of the microphone 10 and the rear surface of the front portion 21 of the housing 20. This allows the sound wave introduced into the front side of the microphone 10 and the sound wave flowing into the rear side of the microphone 10 through the sound wave guide path 42 to be partitioned.

The sound wave guide path 42 is provided with an acoustic filter 62 to reduce noise by attenuating low frequency sound waves among sound waves flowing toward the rear surface of the microphone 10. The acoustic filter 62 is made of a porous material that can attenuate noise while passing sound.

The circuit board 50 is embedded in the housing 20 in such a manner as to cover the rear surface of the microphone support 40, and a connector 51 to which an external terminal is connected is provided at one side of the rear surface of the microphone support 40. The circuit board 50 includes a control circuit for controlling an audio signal output from the microphone 10.

As shown in FIG. 5, the control circuit is connected to an input signal line 52 and an input signal line 52 for transmitting a voice signal output from the microphone 10, and applies noise to the input signal line 52. The condenser 53 to be removed and the filter unit 54 to cut off the frequencies of the high frequency and low frequency bands of the speech signal from which the noise is removed through the condenser 53 are set to the frequency band where the audio signal passed through the filter unit 54 is set. An amplifier 56 for amplifying a voice signal cut out of a high frequency band and a low frequency band through a variable resistor 55 and a filter unit 54 to be adjusted, and an output signal line for outputting the amplified voice signal from the amplifier 56 to the outside ( 57), a microphone connected to the output signal line 57 to limit the current component of the voice signal, and a microphone connected between the output signal line 57 and the input signal line 52 to apply a bias voltage. The bias part 59 is included.

In this circuit, the variable resistor 55 is provided on the rear side of the circuit board 50 so as to face the rear cover 30 as shown in FIGS. 2 and 6. And the rear cover 30 is provided with a control hole 32 formed in a position corresponding to the variable resistor 55 so as to adjust the output by operating the variable resistor 55 from the outside without opening the rear cover 30 do. The adjusting hole 32 is provided to a size such that a tool such as a driver can enter from the outside.

When assembling the microphone module, the microphone 10 and the acoustic filter 62 are first accommodated in the microphone support 40, and the circuit board 50 is coupled to the rear surface of the microphone support 40. At this time, the circuit board 50 and the microphone 10 are to be in an electrically connected state. Next, the microphone support 40 and the circuit board 50 coupled to each other in a state where the sealing member 61 is positioned on the front surface of the microphone 10 are accommodated in the housing 20, and then the back cover 30 is covered and assembled. To complete.

In this directional microphone module, the sound wave introduced into one sound inlet 21a is guided to the front sound wave inlet 11a of the microphone 10, and the sound wave introduced into the other sound inlet 21b guides the sound wave of the microphone support 40. It is introduced into the rear acoustic wave inlet 18a of the microphone 10 through the path 42. In this case, low-frequency sound waves of the sound waves flowing into the rear sound wave inlet 18a of the microphone 10 may be attenuated while passing through the sound filter 62, and thus noise of the microphone 10 may be reduced.

In addition, the circuit of the circuit board 50 can cut off the high frequency and low frequency bands of the audio signal output from the microphone 10 to further reduce noise and at the same time increase the output by the amplifier 56. In particular, the microphone module of the present invention can adjust the output signal by operating the variable resistor 55 from the outside even after the manufacturing is completed, as shown in Figure 6, the output signal is set for all products shipped Can be maintained in the frequency band.

10: microphone, 20: housing,
30: rear cover, 40: microphone support,
50: circuit board, 62: acoustic filter.

Claims (3)

A sound inlet is provided on the front and the rear of the housing is open; A rear cover covering a rear of the housing; A directional microphone installed in the housing and into which sound waves flow into the front and rear surfaces thereof; It is installed in the housing, the front side of the microphone is formed so that the receiving groove for receiving and supporting the microphone on one side of the front portion to be installed opposite to the sound inlet, the other side of the receiving side of the microphone from the sound inlet A microphone support provided with a sound wave guide path for guiding sound waves into a groove; A porous acoustic filter accommodated in the sound wave guide path to reduce noise by attenuating low frequency sound waves introduced into the rear surface of the microphone through the sound wave guide path; A circuit board installed in the housing and having a control circuit for controlling the output of the microphone,
The control circuit of the circuit board includes a filter unit for cutting off high and low frequency bands from the voice signal output from the microphone, a variable resistor for adjusting the voice signal passing through the filter unit to a set frequency band, and a low frequency and high frequency band through the filter unit. An amplifier for amplifying the cutoff voice signal,
The circuit board is embedded in the rear side of the microphone support, the rear cover is characterized in that it comprises a control hole formed in a position corresponding to the variable resistor so as to operate the variable resistor from the outside without opening the rear cover Directional microphone module. delete delete

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