JP2005341538A - Mixer module, mixer device, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable a plurality of sound signals to be output by mixing at a volume level in accordance with each precedence without carrying out complicated operations. <P>SOLUTION: The mixer module has a first input part whereto a sound signal is input, a second input part whereto a sound signal is input, an attenuation part for attenuating the volume level of the sound signal input to the first input part to a prescribed level and outputting it, a control signal supply part which detects the volume level of the sound signal input to the second input part and supplies the control signal to the attenuation part when the volume level exceeds a prescribed threshold and an output part which mixes and outputs the sound signal input to the second input part and a sound signal output from the attenuation part. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a technology for mixing and outputting a plurality of sound signals, and to a technology for mixing the sound signals with priorities.

For example, in large-scale conferences such as international conferences, microphones that collect the voices of attendees are provided for each attendee, and the sound signals output from those microphones are mixed with an acoustic device such as a mixer to create a conference room. It is generally performed to output from speakers provided at various places. Under such circumstances, if the discussion is heated and a large number of attendees speak at the same time, it is difficult to listen to each attendee's remarks, and the congress may be confused.
In order to avoid the occurrence of such a situation, a switch for enabling only the function of a specific microphone (for example, the microphone of the chairperson) and stopping the function of other microphones is provided, and by operating this switch, It has been proposed that only the above-mentioned speaker is output (for example, Patent Document 1).

JP-A-9-325795

  However, the technique disclosed in Patent Document 1 has a problem in that a complicated work such as operating the switch every time the discussion is incandescent must be performed, which increases the burden on the chairperson. In addition, when the above switch is operated, the voices of attendees other than the chairman are not output, so that the remarks exchanged until then are abruptly interrupted, which makes it unnatural.

  The present invention has been made in view of the above-described problems, and provides a technique that enables a plurality of sound signals to be mixed and output at a volume level corresponding to each priority without performing complicated operations. It is intended to provide.

  In order to solve the above problems, the present invention provides a first input unit to which a sound signal is input, a second input unit to which a sound signal is input, and a control signal supplied to the first input unit. Detecting the volume level of the sound signal input to the second input section, detecting the volume level of the sound signal input to the second input section, and attenuating the volume level of the sound signal input to the input section; A control signal supply unit that supplies the control signal to the attenuation unit when the frequency exceeds a predetermined threshold, and the sound signal input to the second input unit and the sound signal output by the attenuation unit Provided is a mixer module having an output unit for mixing and outputting.

  According to such a mixer module, when the volume level of the sound signal input to the second input unit exceeds a predetermined threshold, the volume of the sound signal input to the first input unit. After the level is attenuated to a predetermined level, it is mixed with the first sound signal and output. Therefore, if the sound signal corresponding to the voice of the chairperson is input to the second input section and the sound signal corresponding to the voice of another attendee is input to the first input section, the voice of the chairperson is obtained. When the sound signal corresponding to the sound signal corresponding to the voices of other attendees is mixed and output, when the volume level of the former exceeds the predetermined threshold, the latter volume level is set to the predetermined level. Will be pulled down.

  In order to solve the above problem, the present invention is provided with a computer device, a detection means for detecting the volume level of the first sound signal input to the computer device, and a predetermined control signal. In this case, attenuating means for attenuating the volume level of the first sound signal to a predetermined level and a volume level of the second sound signal input to the computer device are detected, and the volume level is set to a predetermined threshold value. The control signal supplying means for supplying the control signal to the attenuating means when exceeding, the second sound signal and the first sound signal whose volume level is attenuated by the attenuating means are mixed and output. A program that functions as output means is provided.

  According to such a program, when the volume level of the second sound signal exceeds a predetermined threshold, the volume level of the first sound signal input separately from the first sound signal. Is attenuated to a predetermined level and then mixed with the second sound signal and output. Therefore, if a sound signal corresponding to the voice of the chairperson is input as the second sound signal and a sound signal corresponding to the voice of another attendee is input as the first sound signal, When mixing and outputting, the latter volume level is lowered to the predetermined level when the former volume level exceeds the predetermined threshold.

  In order to solve the above problem, the present invention provides a first input unit to which a sound signal is input, a second input unit to which a sound signal is input, and a control signal. Detecting a volume level of the sound signal input to the second input section; an attenuation section for attenuating and outputting the volume level of the sound signal input to the first input section to a predetermined level; A control signal output unit that outputs the control signal when the volume level exceeds a predetermined threshold, and the sound signal input to the second input unit and the sound signal output from the attenuation unit are mixed. A plurality of mixer modules each having an output section to output and each control signal output from the control signal output section of each mixer module to each attenuation section of each mixer module and to be a supply destination A switch for switching each attenuation section. Providing a mixer apparatus characterized with the priority switching unit having a pitch means.

  According to such a mixer apparatus, the attenuator which is the supply destination of the control signal supplied from the control signal supplier of each mixer module is switched by the priority switching unit, and the control signal supplier of each mixer module Supplies the control signal to the supply destination according to the volume level of the sound signal input to the second input unit of the mixer module. On the other hand, when the control signal is supplied, the attenuation unit of each mixer module attenuates the sound signal input to the first input unit of the mixer module to a predetermined level and outputs the attenuated signal. The sound signal input to the second input unit of the mixer module is mixed and output.

  According to the present invention, there is an effect that a plurality of sound signals can be mixed and output at a volume level corresponding to each priority without performing complicated operations.

Hereinafter, the best mode for carrying out the present invention will be described with reference to the drawings.
[A. First Embodiment]
FIG. 1 is a block diagram showing a configuration example of a conference system having a mixer device 20 according to the first embodiment of the present invention. Microphones 10a, 10b, 10c, and 10G in FIG. 1 collect voices of attendee A, attendant B, attendant C, and the chairperson and input sound signals corresponding to the voices to mixer apparatus 20, respectively. . The mixer device 20 mixes the sound signals input from the microphones and outputs the mixed sound signals to the speaker system 30. The speaker system 30 installs sound corresponding to the sound signals delivered from the mixer device 20 in the conference hall. The sound is emitted to a speaker (not shown). In FIG. 1, four microphones are illustrated, but the number of microphones included in the conference system is not limited to four, and any number may be used as long as it is two or more. Needless to say.

  The mixer device 20 shown in FIG. 1 is input from a specific microphone (in the first embodiment, the microphone 10G: the chairperson's microphone) assigned a higher priority than the other microphones among the four microphones. When the volume level of the sound signal exceeds a predetermined threshold, mixing characteristic of the present invention is performed. Specifically, when the volume level of the sound signal input from the specific microphone exceeds the threshold value, the mixer device 20 mixes the sound signal input from another microphone. After the sound volume level is lowered to a predetermined level, the sound signal input from the specific microphone is mixed and output. For this reason, in the conference system shown in FIG. 1, the chairperson starts speaking at a volume level exceeding the above threshold, and lowers the volume level of the voices of other attendees without performing any other special operation. It is possible to preferentially output the own voice from the speaker system 30. Below, it demonstrates centering on the mixer apparatus 20 which has shown the characteristic of the conference system which concerns on this embodiment notably.

  FIG. 2 is a functional block diagram illustrating an example of a functional configuration of the mixer apparatus 20. As shown in FIG. 2, the mixer device 20 includes a mixer module 100 and a mixer module 200, microphones 10 a, 10 b, and 10 c are connected to the mixer module 100, and a microphone is connected to the mixer module 200. 10G is connected. The mixer module 100 attenuates the sound signal corresponding to the voice of each of the other attendees according to the ratio between the volume level and the volume level (hereinafter, sum level) of the sum signal of the sound signals. This is mixed and delivered to the mixer module 200. The reason why the sound signals corresponding to the voices of the other attendees are attenuated according to the ratio between the volume level and the sum level is that the volume of the mixing result is kept constant and the attenuation is performed. This is because if the mixing is performed, the volume level of the mixing result becomes high and howling may occur. On the other hand, the mixer module 200 is for realizing the mixing characteristic of the present invention. When mixing the sound signal delivered from the microphone 10G and the sound signal delivered from the mixer module 100, the former is used. If the volume level exceeds a predetermined threshold, the latter volume level is lowered to a predetermined level, and then mixed with the former to be delivered to the speaker system 30. The reason why the threshold is set is to eliminate the influence of noise collected by the microphone 10G and to lower the volume level of other attendees only when the chairman speaks with a clear intention. is there. Hereinafter, the mixer module 100 and the mixer module 200 will be described in detail.

First, the mixer module 100 will be described.
As shown in FIG. 2, the mixer module 100 includes input terminals 110a, 110b and 110c, volume level adjusters 120a, 120b and 120c, adders 130 and 140, a sum level detector 150, and an output. Terminal 160. Hereinafter, when it is not necessary to distinguish each of the input terminals 110a, 110b, and 110c, they are simply referred to as “input terminal 110”. In the following, when it is not necessary to distinguish each of the volume level adjustment units 120a, 120b, and 120c, they are simply referred to as “volume level adjustment unit 120”.

  The input terminal 110 is connected to the microphones of the other attendees and receives a sound signal corresponding to the sound collected by the microphones. Specifically, the microphone 10a is connected to the input terminal 110a, the microphone 10b is connected to the input terminal 110b, and the microphone 10c is connected to the input terminal 110c. The sound signal input to the input terminal 110 is divided into two as shown in FIG. 2, one is delivered to the adder 130, and the other is delivered to the volume level adjusting unit 120.

  The adder 130 mixes the sound signals delivered from the input terminals 110 a, 110 b and 110 c to generate a sum signal, and outputs the sum signal to the sum level detector 150. The sum level detector 150 detects the sum level, which is the volume level of the sum signal, and delivers the detection result to each of the volume level adjustment units 120a, 120b, and 120c.

  The volume level adjustment unit 120 includes a volume level detector 121, a divider 122, and an amplifier 123. The sound signal delivered from the input terminal 110 to the volume level adjustment unit 120 is shunted in the volume level adjustment unit 120, one is delivered to the amplifier 123, and the other is delivered to the volume level detector 121. The volume level detector 121 detects the volume level of the input sound signal and delivers the detection result to the divider 122. The divider 122 divides the volume level delivered from the volume level detector 121 by the sum signal level delivered from the sum level detector 150 and sets the calculation result as an attenuation factor to the amplifier 123. The amplifier 123 attenuates the sound signal delivered from the input terminal 110 with the attenuation rate and delivers it to the adder 140. The adder 140 mixes the sound signals delivered from each of the volume level adjusting units 120a, 120b, and 120c and delivers them to the mixer module 200 via the output terminal 160.

Next, the mixer module 200 will be described.
As shown in FIG. 2, the mixer module 200 includes a first input unit 210, a second input unit 220, a control signal supply unit 230, an amplifier 240, and an adder 250. . The first input unit 210 is, for example, an external input terminal, and is connected to the output terminal 160 of the mixer module 100 described above. The second input unit 220 includes an input terminal 221 connected to the microphone 10 </ b> G and an amplifier 222. A sound signal (that is, a sound signal corresponding to the chairman's voice) input to the input terminal 221 is output by the amplifier 222. The signal is amplified and delivered to the adder 250.

  As shown in FIG. 2, the control signal supply unit 230 includes a level detector 231 and an inverter 232. The level detector 231 detects the volume level of the sound signal delivered from the second input unit 220 to the adder 250. When the volume level exceeds a predetermined threshold, the signal value “ A control signal of “1” is delivered to the inverter 232, and conversely, if it is equal to or less than the threshold value, a control signal of signal value “0” is delivered to the inverter 232. The inverter 232 inverts the signal value of the control signal delivered from the level detector 231 and delivers it to the amplifier 240. As described above, since the sound signal delivered from the second input unit 220 to the adder 250 is a sound signal corresponding to the chairman's voice, the control signal supply unit 230 speaks at a volume at which the chairperson exceeds the threshold value. During this period, the control signal having the signal value “0” is delivered to the amplifier 240, and in other cases, the control signal having the signal value “1” is delivered to the amplifier 240.

  The amplifier 240 is connected to the first input unit 210 and attenuates the sound signal delivered from the mixer module 100 via the first input unit 210 with a different attenuation rate according to the signal value of the control signal. Are transferred to the adder 250. Specifically, when a control signal having a signal value “1” is delivered, the amplifier 240 delivers the sound signal as it is to the adder 250, and conversely, a control having a signal value “0”. When the signal is delivered, the volume level of the sound signal is attenuated to a predetermined level and delivered to the adder 250. The adder 250 mixes and outputs the sound signal delivered from the first input unit 210 and the sound signal delivered from the amplifier 240.

  Due to such a configuration, according to the mixer device 20 according to the first embodiment, in the situation where the chairman is silent, the signal value of the control signal supplied from the control signal supply unit 230 to the amplifier 240 is “1”. Therefore, the sound signal mixed by the mixer module 100 (that is, the sound signal corresponding to the voice of another attendee) is delivered to the speaker system 30 as it is. As a result, sound having a volume level as shown in FIG. 3A is emitted from a speaker (not shown) in the conference hall. Here, when the chairperson starts speaking at a volume exceeding a predetermined threshold, the signal value of the control signal supplied from the control signal supply unit 230 to the amplifier 240 changes from “1” to a value close to “0”. After the volume level of the sound signal delivered from the mixer module 100 is lowered to a predetermined level, it is mixed with the sound signal corresponding to the voice of the chairman and output to the speaker system 30. As a result, the volume level of the sound output from the speaker is as shown in FIG.

  As described above, according to the mixer device 20 according to the present embodiment, the chairperson simply lowers the volume level of other attendees and preferentially speaks his / her voice by simply starting to speak at a volume exceeding a predetermined threshold. It is possible to output from the speaker system 30, and it is not necessary to perform other complicated operations. Also, even after the chairperson starts speaking at a volume that exceeds a certain threshold, the voice level of other attendees can be lowered, but it does not stop being output at all. There is no danger of being cut off and giving an unnatural impression.

[B. Second Embodiment]
Next, a second embodiment of the present invention will be described.
FIG. 4 is a block diagram showing a configuration example of a conference system having a mixer device according to the second embodiment of the present invention. The conference system shown in FIG. 4 differs from the conference system shown in FIG. 1 in that a mixer device 40 is provided instead of the mixer device 20 and a microphone 10F is newly provided. In the conference system shown in FIG. 4, the microphone 10F collects the voice of the vice chairperson and delivers the sound signal corresponding to the voice to the mixer device 40, and is assigned the same priority as the microphone 10G. Hereinafter, the mixer device 40 that is a difference from the conference system according to the first embodiment will be mainly described.

FIG. 5 is a block diagram illustrating a configuration example of the mixer device 20.
As shown in FIG. 5, the configuration of the mixer device 40 is different from the configuration of the mixer device 20 in that a mixer module 300 is provided instead of the mixer module 200. The mixer module 300 is different from the mixer module 200 only in that a second input unit 320 is provided instead of the second input unit 220. As shown in FIG. 5, the second input unit 320 has substantially the same configuration as that of the mixer module 100, and does not include the input terminal 110c and the volume level adjustment unit 120c. Different from the mixer module 100. In the second embodiment, the microphone 10G is connected to the input terminal 110a of the second input unit 320, and the microphone 10F is connected to the input terminal 110b of the second input unit 320. As is apparent from the above description of the mixer module 100, the second input unit 320 converts each of the sound signal corresponding to the voice of the chairperson and the sound signal corresponding to the voice of the vice-chairperson with its volume level and the sum of both. The signal is attenuated according to the ratio to the sum level, which is the volume level of the signal, and then mixed and delivered to the adder 250. Hereinafter, the sound signal delivered from the second input unit 320 to the adder 250 is referred to as “chairman group signal”, and the sound signal delivered from the mixer module 100 to the mixer module 300 is referred to as “attendant group signal”.

  When the volume level of the chairperson group signal exceeds a predetermined threshold, the mixer module 300 reduces the volume level of the sound signal of the attendee group signal input to the first input unit 210 to a predetermined level. Both are mixed and output to the speaker system 30. Therefore, according to the mixer device 40, at least one of the chairperson and the vice-chairperson has a predetermined threshold value in a situation where the attendee A, the attendee B, and the attendee C each speak (see FIG. 6A). When speaking is started at a volume exceeding 1, the volume level of the attendee group signal is lowered to a predetermined level, and then mixed with the chairperson group signal and output to the speaker system. As a result, the volume level of the sound output from the speaker (not shown) is as shown in FIG.

  As described above, according to the second embodiment, the chairperson or the vice-chairman simply starts speaking at a volume exceeding a predetermined threshold, lowers the volume level of other attendees, and gives priority to his own voice. It is possible to output from the speaker system 30, and it is not necessary to perform other complicated operations. In addition, even after the chairperson or vice chairperson starts speaking at a volume exceeding a predetermined threshold, the speech that other attendees exchanged is not interrupted, which is the same as in the first embodiment described above. . In addition, according to the second embodiment, within the chairperson and vice chairperson group or other attendees' groups, mixing is performed at a ratio according to each volume level, and the ratio is maintained while maintaining the ratio. It is possible to perform mixing according to the priority order.

[C. Modified example]
Although the best mode for carrying out the present invention has been described above, it goes without saying that the following modifications may be made.
(C-1: Modification 1)
In the first and second embodiments described above, the case where the first input unit 210 of the mixer module according to the present invention is configured with an input terminal for connecting to another mixer module (for example, the mixer module 100) has been described. Of course, the first input unit 210 may be replaced with another mixer module.

(C-2: Modification 2)
In the above-described embodiment, the case where the mixer apparatus is configured by using only one mixer module according to the present invention has been described. However, the mixer apparatus may be configured by combining a plurality of mixer modules according to the present invention. As an example, there is a mixer device 50 shown in FIG. As shown in FIG. 7, the mixer device 50 includes mixer modules 200a and 200b and a mixer module 100. The output terminal of the mixer module 100 is connected to the first input section 210b of the mixer module 200b. The output terminal of the mixer module 200b is connected to the first input unit 210a of the mixer module 200a. According to the mixer device 50 configured as described above, the microphones connected to the mixer device 50 are divided into three groups, and three levels of priority, “high”, “medium”, and “low”, are assigned. Is possible. For example, when the microphone 10G is connected to the mixer module 200a, the microphone 10F is connected to the mixer module 200b, and the microphones 10a, 10b, and 10c are connected to the mixer module 100, the priority level “high” is assigned to the microphone 10G. The microphone 10F is assigned a priority “medium”, and the microphones 10a, 10b, and 10c are assigned a priority “low”. The reason is as follows.

  The mixer module 200a includes a sound signal input from the microphone 10G to the second input unit 220a and a sound signal input from the mixer module 200b to the first input unit 210a (that is, a result of mixing the sound signals of other microphones). When the volume level of the former exceeds a predetermined threshold value, the latter volume level is lowered to a predetermined level and mixed. For this reason, the priority “high” is assigned to the microphone 10G. In contrast, when the mixer module 200b mixes the sound signal input from the microphone 10F and the sound signals input from the microphones 10a, 10b, and 10c, the volume level of the former exceeds a predetermined threshold value. If so, the latter volume level is lowered to a predetermined level for mixing. Thus, although a higher priority is assigned to the microphone 10F than the microphones 10a, 10b, and 10c, as described above, the priority is lower than that of the microphone 10G. That is, the priority “medium” is assigned to the microphone 10F. Since the sound signals input from the microphones 10a, 10b and 10c are mixed by the mixer module 100 at a ratio corresponding to the volume level, there is no priority order between the microphones 10a, 10b and 10c. Therefore, the priority “low” is assigned to the microphones 10a, 10b, and 10c.

  In the mixer apparatus 50 shown in FIG. 7, the priority assigned to each microphone is fixedly determined depending on which mixer module is connected to the microphone, but the priority assigned to each microphone can be freely changed. It is also possible to make it. Specifically, in the case of the mixer device 60 having the configuration as shown in FIG. 8, the priority order of the microphones connected to the mixer device 60 can be freely changed. As shown in FIG. 8, the mixer device 60 includes mixer modules 400 a, 400 b and 500, and a priority switching unit 600. In the following, when it is not necessary to distinguish between the mixer modules 400a and 400b, the mixer modules 400a and 400b are referred to as “mixer modules 400”.

  The difference of the configuration of the mixer module 400 from the configuration of the mixer module 200 (see FIG. 2) is that the control signal supply unit 230 and the amplifier 240 are not directly connected but are connected via the priority switching unit 600. It is a point. Further, the configuration of the mixer module 500 is different from that of the mixer module 300 in that the control signal supply unit 230 and the amplifier 240 are not directly connected but are connected via the priority switching unit 600. is there. FIG. 9 is a block diagram illustrating a configuration example of the priority switching unit 600. As illustrated in FIG. 9, the priority switching unit 600 includes three detection terminals (detection terminals 610a, 610b, and 610c). , And three control terminals (control terminals 620a, 620b and 620c) each connected to each detection terminal via a switch. The three detection terminals are each connected to a unique control signal supply unit 230, and the three control terminals are each connected to a unique amplifier 240. For example, the detection terminal 610a is connected to the control signal supply unit 230a of the mixer module 400a, and the control terminal 620a is connected to the amplifier 240a of the mixer module 400a.

  Due to such a configuration, the mixer device 60 supplies control signals to each of the mixer modules 400a, 400b, and 500 by switching on / off the nine switches provided in the priority switching unit 600. It is possible to switch the supply destination of the control signal supplied from the unit 230 and switch the priority order between the modules (that is, the priority order of the microphones connected to each mixer module). For example, if the on / off of the switch is set as shown in FIG. 10A, the mixer device 60 has the same configuration as the mixer device 50. If the on / off of the switch is set as shown in FIG. 10B, only the priority order of the microphones connected to the mixer module 400a can be increased.

  As described above, according to the mixer device 60 according to the present modification, the priority order between the mixer modules can be appropriately switched by appropriately switching on / off of the switch provided in the priority switching unit 600. It becomes possible. Further, if the on / off of the switch is switched according to time (for example, time elapsed since each participant started speaking), the priority order among the mixer modules is switched according to time. It is also possible.

  In this modification, the case where the connection between the control signal supply unit 230 and the amplifier 240 of each mixer module is switched using the above-described priority switching unit 60 has been described, but the output terminal of each module and the first input unit 210 are switched. Even when the connections are switched, it is possible to switch the priority order among the mixer modules.

(C-3: Modification 3)
In the above-described embodiment, the case where the mixer module according to the present invention is realized by hardware has been described. However, when a control unit such as a CPU (Central Processing Unit) is supplied with detection means for detecting the volume level of the input first sound signal and a predetermined control signal, the first sound is detected. Attenuating means for attenuating the volume level of the signal to a predetermined level; and a volume level of the input second sound signal is detected, and the control signal is sent to the attenuating means when the volume level exceeds a predetermined threshold value. A control signal supply means for supplying to the computer, and a program for functioning as an output means for mixing and outputting the second sound signal and the first sound signal whose volume level is attenuated by the attenuation means. Of course, the same function as that of the mixer module may be added.

(C-4: Modification 4)
In the above-described embodiment, the mixer module that mixes the first sound signal input to the first input unit 210 and the second sound signal input to the second input unit 220 and outputs the sum signal is provided. In the case where the volume level of the second sound signal exceeds a predetermined threshold, the volume level of the first sound signal is reduced to a predetermined level and then mixed with the second sound signal. . However, as in the mixer module 700 shown in FIG. 11A, the control signal output from the control signal supply unit 230 in accordance with the volume level of the second sound signal is converted into a low-pass filter (FIG. 11A). , Expressed as “LPF”) 260, and may be input to the amplifier 240. According to such a mixer module 700, as shown in FIG. 11B, when the volume level of the first sound signal is lowered according to the volume level of the second sound signal, the change is moderated. (In FIG. 11B, the change in the level of the first sound signal in the mixer module 200 (see FIG. 2) is indicated by a broken line, and the first sound in the mixer module 700 is displayed. The signal level change is shown as a solid line). For this reason, even when a sound signal representing a pulsed noise having a volume level exceeding the threshold value is input to the second input unit 220, a malfunction due to the noise (that is, the first signal is generated according to the noise). There is an effect that the volume level of the sound signal is reduced).

(C-5: Modification 5)
In the above-described embodiment, the mixer module that mixes the first sound signal input to the first input unit 210 and the second sound signal input to the second input unit 220 and outputs the sum signal is provided. When the volume level of the second sound signal exceeds a predetermined threshold, the volume level of the first sound signal is lowered to a predetermined level and then mixed with the second sound signal. did. However, when mixing the first sound signal and the second sound signal, the lower the volume level of the first sound signal is, the larger the volume level of the first sound signal is. You may do it. As shown in FIG. 12, this is because the mixer modules 400a and 400b described above are output from the control signal supply unit 230a of the mixer module 400a and the control signal supply unit 230b of the mixer module 400b. Of the control signals, the control signal having the smaller signal level is connected via the signal selection unit 800 that supplies the control signal to the amplifier 240a of the mixer module 400a. In this way, even if an attendant using a microphone connected to the second input unit 220 of the mixer module 400b yells to prevent other attendees from speaking, the sound output from the microphone It is possible to automatically reduce the volume level of the signal for mixing, and it is possible to eliminate the disturbing action as described above without performing any special operation.

(C-6: Modification 6)
In the embodiment described above, the voice of a member of a chairperson or a chairperson group (a group composed of a chairperson and a vice chairperson) is preferentially output over the voices of other attendees (that is, when the former begins to speak, The case where the volume level of the latter sound is lowered to a predetermined level and sound signals representing both sounds are mixed and output) has been described. However, it goes without saying that the mixing balance of sound signals supplied to a plurality of speakers may be different for each speaker. For example, the first speaker is supplied with a mixed sound signal with a higher priority of the voice of the chairperson or the chairperson group, and the second speaker is supplied with the priority of the voice of other attendees. May be set so that the mixed sound signal is supplied, and the third speaker may be supplied with the sound signal mixed in the same manner. Such a thing is implement | achieved by supplying a sound signal to the said 1st, 2nd and 3rd speaker with the mixer apparatus shown in FIG. The mixer device shown in FIG. 13 includes mixer modules 400a and 400b and a mixer module 900 that equally mixes and outputs a plurality of input sound signals, and outputs the sound signals output from the mixer module 400a. The sound signal output from the mixer module 400b to the first speaker is supplied to the second speaker, and the sound signal output from the mixer module 700 is supplied to the third speaker. Yes. In this mixer apparatus, as shown in FIG. 13, the first sound signal representing the voice of the chairman is branched into three, the second input unit 220a of the mixer module 400a, and the first input unit of the mixer module 400b. 210b and the mixer module 900. Further, the second sound signal representing the voices of other attendees is supplied to the second input unit 220b of the mixer module 400b, the first input unit 210a of the mixer module 400a, and the mixer module 900. The control signal output from the control signal supply unit 230a of the mixer module 400a is supplied to the amplifier 240a of the mixer module 400a, and the control signal output from the control signal supply unit 230b of the mixer module 400b is the mixer module. It is supplied to the amplifier 240b of 400b.

  In the mixer module 400a, since the first sound signal is input to the second input unit 220a and the second sound signal is input to the first input unit 210a, the volume of the first sound signal is After the second sound signal level is lowered according to the level, a sum signal of both is generated, and the sum signal is output to the first speaker. For this reason, the first speaker always emits a voice in which the priority of the chairperson is higher than that of other attendees. On the other hand, in the mixer module 400b, the second sound signal is input to the second input unit 220b, and the first sound signal is input to the first input unit 210a. After the first sound signal level is lowered according to the sound volume level, a sum signal of the two is generated, and the sum signal is output to the second speaker. For this reason, the second speaker always emits a sound in which the priority of other attendees is higher than that of the chairperson. In the mixer module 900, the first sound signal and the second sound signal are mixed equally, and a sum signal corresponding to the mixing result is supplied to the third speaker. For this reason, the third speaker emits a sound in which the voice of the chairman and the voices of other attendees are mixed with equal balance. In this modification, the chairman's voice and other attendees' voices are mixed and output with different balances for each speaker using the mixer device shown in FIG. Of course, the sound signal representing the sound may be the first sound signal, and the sound signal representing the sound obtained by translating the speech content into another language may be the second sound signal. . When the mixer device is applied to karaoke and two users (hereinafter, first and second users) perform a duet, a sound signal representing the singing sound of the first user is used as the first sound signal. And the sound signal representing the singing sound of the second user is used as the second sound signal, and the sound signal is supplied from the mixer module 400a of FIG. 13 to the monitor output of the first user. A sound signal is supplied from the mixer module 400b of FIG. 13 to the monitor output of the user, and the sound corresponding to the sound signal output from the mixer module 900 of FIG. 13 is emitted to other listeners. Also good.

It is a block diagram which shows the structural example of the conference system which has the mixer apparatus 20 which concerns on 1st Embodiment of this invention. 3 is a functional block diagram showing a functional configuration of the mixer device 20. FIG. It is a figure which shows an example of the mixing result by the mixer apparatus. It is a figure which shows the structural example of the conference system which has the mixer apparatus 40 which concerns on 2nd Embodiment of this invention. 3 is a functional block diagram showing a functional configuration of the mixer device 40. FIG. It is a figure which shows an example of the mixing result by the mixer apparatus. It is a block diagram which shows the function structure of the mixer apparatus 50 which concerns on the modification 2. FIG. It is a block diagram which shows the function structure of the mixer apparatus 60 which concerns on the modification 2. 3 is a diagram illustrating a configuration example of the priority order switching unit 600. FIG. It is a figure which shows an example of the setting pattern of the switch of the priority switching part 600 which concerns on the modification 2. It is a block diagram which shows the function structure of the mixer module 700 which concerns on the modification 4. FIG. 10 is a block diagram illustrating a configuration example of a mixer device according to Modification Example 5. FIG. 10 is a block diagram illustrating a configuration example of a mixer device according to Modification 6.

Explanation of symbols

  10a, 10b, 10c, 10G, 10F ... microphone, 20, 40 ... mixer device, 30 ... speaker system, 100, 200, 300, 700 ... mixer module, 110, 110a, 110b, 110c ... input terminal, 120, 120a, 120b, 120c ... volume level adjustment unit, 121 ... volume level detector, 122 ... divider, 123, 240 ... amplifier, 130, 140, 250 ... adder, 150 ... sum level detector, 160 ... output terminal, 210 ... 1st input part, 220, 320 ... 2nd input part, 230 ... Control signal supply part, 231 ... Level detector, 232 ... Inverter.

Claims (4)

A first input unit to which a sound signal is input;
A second input unit to which a sound signal is input;
An attenuation unit that attenuates and outputs a volume level of the sound signal input to the first input unit to a predetermined level when a control signal is supplied;
A control signal supply unit that detects a volume level of the sound signal input to the second input unit, and supplies the control signal to the attenuation unit when the volume level exceeds a predetermined threshold;
A mixer module comprising: an output unit that mixes and outputs the sound signal input to the second input unit and the sound signal output from the attenuation unit. Multiple input terminals,
A sum level detector that detects a sum level that is a volume level of a sum signal obtained by mixing sound signals input to each of the plurality of input terminals;
A mixing unit that attenuates and mixes each of the sound signals in accordance with a ratio between the volume level and the sum level, and outputs the mixed sound signal to the first or second input unit; The mixer module according to claim 1. A first input unit to which a sound signal is input;
A second input unit to which a sound signal is input;
An attenuation unit that attenuates and outputs a volume level of the sound signal input to the first input unit to a predetermined level when a control signal is supplied;
A control signal output unit that detects a volume level of the sound signal input to the second input unit and outputs the control signal when the volume level exceeds a predetermined threshold;
A plurality of mixer modules comprising: an output unit that mixes and outputs the sound signal input to the second input unit and the sound signal output from the attenuation unit;
A priority switching unit having switch means for supplying each control signal output from the control signal output unit of each mixer module to each attenuation unit of each mixer module and switching each attenuation unit serving as a supply destination A mixer device comprising: Computer equipment,
Detecting means for detecting a volume level of the first sound signal input to the computer device;
Attenuating means for attenuating the volume level of the first sound signal to a predetermined level when a predetermined control signal is supplied;
Control signal supply means for detecting the volume level of the second sound signal input to the computer apparatus and supplying the control signal to the attenuation means when the volume level exceeds a predetermined threshold;
A program that functions as an output unit that mixes and outputs the second sound signal and the first sound signal whose volume level is attenuated by the attenuation unit.

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