JP5505020B2 - Mixer - Google Patents

Description

  The present invention relates to a mixer suitable for use in audio signal mixing in a concert hall or a recording studio.

  In mixers used in concert halls, etc., the main system audio signals are emitted to general participants by applying effects processing and mixing processing to various audio signals supplied from the input channels. (Hereinafter referred to as FOH (Front of house) audio signal). Further, the mixer also outputs an audio signal for performing monitoring of a performer, an audio signal for recording, and the like. Here, the audio signal for monitoring is generally subjected to effect processing and mixing processing different from the audio signal for FOH according to the role and request of each performer. Also, as a recording audio signal, it is common to supply an audio signal that hardly reflects effect processing or mixing processing.

  In order to generate an audio signal for FOH, various filtering processes are applied to the input audio signal. To generate an audio signal for monitoring or recording, an audio signal for FOH is generated. In general, the signal at the middle stage is branched, and after that, various processing is performed as an audio signal different from that for FOH. For this reason, in the mixer described in Non-Patent Document 1 or the like, the signal in the middle of generating the FOH audio signal can be branched and used for other purposes.

"PM5D / PM5D-RH V2 DSP5D Instruction Manual" Yamaha Corporation, 2004

By the way, in generating the FOH audio signal, the level of the audio signal is adjusted by the fader, but the fader level is not reflected in the signal branched from the stage before the fader. However, in order to efficiently generate an audio signal for monitoring or an audio signal for recording, it is desirable to reflect the on / off state and fader level of the audio signal for FOH in these audio signals. There is a case.
The present invention has been made in view of the above-described circumstances, and provides a mixer capable of reflecting the on / off state or fader level of the main system as necessary to the audio signal for monitoring or recording. The purpose is to do.

In order to solve the above problems, the present invention is characterized by having the following configuration. The parentheses are examples.
In the mixer according to claim 1, sound quality adjustment or gain adjustment is performed on the input audio signal supplied to each of the mixers, and the main system signals (SL-1 to SL-128, SR-1) as a result thereof. SR-128) and a plurality of input channel adjustment units (112-1 to 112-128) for outputting a plurality of MIX send signals (SS-1-1-1 to SS-128-16), and the respective inputs. A main system bus (118) for mixing the main system signals (SL-1 to SL-128, SR-1 to SR-128) output from the channel adjustment unit (112-1 to 112-128); A plurality of MIX buses (116-1 to 1) for mixing the MIX send signals (SS-1-1 to SS-128-96) output from the input channel adjustment units (112-1 to 112-128). 6-96) and a main system output adjustment unit (120) that performs sound quality adjustment or gain adjustment on the mixing result in the main system bus (118) and outputs a main system output signal (Lout, Rout) as a result. ), And a MIX output adjusting unit (122) that performs sound quality adjustment or gain adjustment on the mixing result in each of the MIX buses (116-1 to 116-96) and outputs a MIX output signal as a result thereof, An output patch unit (126) for arbitrarily assigning a main system output signal (Lout, Rout) and each MIX output signal to any one of a plurality of output ports (4, 7, 10), The channel adjustment units (112-1 to 112-128) each generate one main system unit (1) that generates the main system signals (SL-1 to SL-128, SR-1 to SR-128). 0-1 to 150-128) and a plurality of MIX send units (190-1-1-1 to 190-128-96) for generating the MIX send signals (SS-1-1 to SS-128-16), Each of the main system sections (150-1 to 150-128) includes a filter section (152, 153, 154) that performs a filtering process on the input audio signal, and the filter section (152 , 153, 154) for adjusting the gain of the audio signal output from the main system gain adjusting unit (160), and the audio signal output from the main system gain adjusting unit (160) to the main system bus (118). A main system on / off unit (162) for switching whether to supply or not, and each of the MIX send units (190-1-1-1 to 190-128-96) includes the main system unit (150-). 1 to 150-128) a plurality of signals including at least an input signal (Pre_HPF) to the filter unit (152, 153, 154) and an input signal (Pre_Fader) to the main system gain adjustment unit (160). A signal selection unit (192) that selects one audio signal from among the signals, and the audio signal selected by the signal selection unit (192) in conjunction with the gain of the main system gain adjustment unit (160) The interlocking gain setting unit (200) for applying a gain to be increased or decreased, and the audio signal selected by the signal selection unit (192) are turned on in conjunction with the on / off state of the main system on / off unit (162). / interlocking off unit for setting the oFF state (196) possess a, the interlocking oN / oFF state is set in the off portion (196) of said main system-off portion (1 62), the gain set in the interlock gain setting unit (200) is the same as the gain set in the main system gain adjustment unit (160). The MIX send unit (190-1-1-1 to 190-128-96) includes an independent on / off unit (193) capable of setting the on / off state independently of the on / off state in the interlock on / off unit (196). And an independent gain setting unit (194) capable of setting the gain independently of the gain in the interlocking gain setting unit (200), and each of the MIX send signals (SS-1-1-1 to SS-128-16). ) Is turned on when the independent on / off unit (193) and the interlocked on / off unit (196) are both on, and the independent Is turned off when at least one of the turn-off unit (193) and the interlocked on-off unit (196) is turned off, and is applied to the MIX send signals (SS-1-1-1 to SS-128-16). The gain is a value obtained by combining the gain set in the independent gain setting unit (194) and the gain set in the interlocking gain setting unit (200) .
Further, in the configuration of claim 2, wherein, in the mixer according to claim 1, wherein the MIX send unit (190-1-1～190-128-96), said interlocking off portion (196) Enable / The system further includes interlocking on / off enable / disable selecting means (198) for setting an invalid state and interlocking gain enable / disable selecting means (202) for setting the valid / invalid state of the interlock gain setting unit (200).

  According to the present invention, the interlocking gain setting unit gives the audio signal selected by the signal selection unit a gain that increases or decreases in conjunction with the gain of the main system gain adjustment unit, and the interlocking on / off unit includes the signal Since the on / off state is set in conjunction with the on / off state of the main system on / off unit for the audio signal selected in the selection unit, the audio signal for monitoring or recording is set as necessary. The on / off state or fader level of the main system can be reflected.

It is a block diagram of the digital mixer 1 of one Example of this invention. 2 is a block diagram of an algorithm of the digital mixer 1. FIG. It is a block diagram of the principal part of this algorithm.

1． Hardware Configuration of Embodiment Next, the hardware configuration of a digital mixer 1 according to an embodiment of the present invention will be described with reference to FIG.
In the figure, reference numeral 2 denotes an AD converter, which converts a plurality of analog audio signals input from the outside into digital audio signals and supplies them through an audio bus 8. A DA converter 4 converts a plurality of digital audio signals supplied via the audio bus 8 into analog audio signals and outputs the analog audio signals. Reference numeral 6 denotes a digital input unit that converts a plurality of systems of digital audio signals supplied from the outside into digital audio signals in an internal format and outputs the digital audio signals via the audio bus 8. Reference numeral 7 denotes a digital output unit which converts a plurality of systems of digital audio signals supplied via the audio bus 8 into digital audio signals in a format for external devices (AES / EBU, ADAT, TASCAM, etc.) Output to the device. Reference numeral 10 denotes an effector group, which performs an effect process on a designated one of the audio signals on the audio bus 8 and outputs it through the audio bus 8. Reference numeral 12 denotes a DSP (Digital Signal Processor), which performs equalizing processing and mixing processing on the audio signal on the audio bus 8 based on a specified mixing algorithm, and outputs the result via the audio bus 8. To do.

  Reference numeral 18 denotes a communication I / O unit which outputs a control signal supplied from an external device via the communication interface 16 and the communication bus 14 and outputs a control signal supplied via the communication bus 14 and the communication interface 16 to the outside. Output to the device. Reference numeral 22 denotes an operating element group, which includes operating elements such as an electric fader, a knob, and an LED key. Reference numeral 20 denotes a detection / control interface which detects the operation state of these operators and outputs them via the communication bus 14 and also sets the operation states (for example, electric faders and knobs) to be set for these operators via the communication bus 14. , The LED key on / off state) is received, the contents are reflected in the operator group 22. Reference numeral 26 denotes a touch panel, which includes, for example, a flat panel display having a resolution of about “1024 × 768” and a touch sensor attached to the surface of the flat panel display. An operation / display interface 24 displays an image designated via the communication bus 14 on the touch panel 26 and outputs operation information detected by the touch sensor via the communication bus 14. A CPU 28 controls each unit via the communication bus 14 based on a control program stored in the ROM 30. A RAM 32 is used as a work memory for the CPU 28.

2． Next, the content of the algorithm implemented in the DSP 12 and the like will be described with reference to FIG. Note that the algorithm is realized by a program set in the DSP 12, and the program is loaded from the ROM 30 or the like to the DSP 12 under the control of the CPU 28. In FIG. 2, the components 108 to 126 are realized by the DSP 12 and the program loaded therein.

  Reference numerals 112-1 to 112-1 to 128 are “128” channel input channel adjustment units, and these are hereinafter collectively referred to as “input channel adjustment unit 112”. In each of the input channel adjustment units 112-1 to 112-1 to 128, the volume and sound quality are adjusted for the audio signal of the corresponding input channel based on the operation of the corresponding electric fader and knob. An audio signal whose volume and sound quality are adjusted by one input channel adjustment unit 112-N (where 1 ≦ N ≦ 128) is “1” stereo signals, “96” MIX send signals, and “ 1 ”is supplied to each element to be described later as a direct out signal. An input patch unit 108 assigns digital audio signals supplied from a plurality of input ports such as the AD converter 2 and the digital input unit 6 to arbitrary input channels of the input channel adjustment unit 112. The effector group 10 is composed of effectors of up to “16” units, and effects processing such as reverb, delay, modulation, etc. is applied to the supplied audio signal, and the result is input via the input patch unit 108 to any one of them. Supply to the channel adjustment unit.

  Reference numeral 116 denotes a MIX bus group composed of “96” MIX buses. Hereinafter, each MIX bus is expressed as “MIX bus 116-M” (where 1 ≦ M ≦ 96). In each MIX bus 116-M, the MIX send signals supplied to the MIX bus from the input channel adjustment units 112-1 to 112-128 are mixed. Reference numeral 118 denotes a stereo bus, which is composed of “1” stereo buses. The configuration of the “1” system stereo bus is the same as that of the “2” system MIX bus. In the stereo bus 118, the stereo signals supplied from the input channel adjustment units 112-1 to 112-128 are mixed. Reference numeral 117 denotes a DCA control unit that gives a gain to a part of the audio signal supplied from the input channel adjustment units 112-1 to 112-128 to the stereo bus 118.

  Here, the function of the DCA control unit 117 will be described. First, “DCA (Ditigal Controlled Amplifier or Ditigal Controlled Attenuator)” assigns a common fader (DCA fader) different from the fader of each input channel to a plurality of input channels, etc., and is set by the DCA fader. The DCA is mainly used for volume control of a large musical instrument such as a piano or a drum, or a part of an orchestra, for example. In particular, the performance sound of a large musical instrument such as a piano is collected by a plurality of microphones, and the sound signals of these microphones are assigned to individual input channels for balance adjustment. An input channel etc. is assigned to one DCA fader, so that it can be collected from individual microphones. The balance between the audio signals is adjusted by the faders of the input channels, etc., and the volume of the entire instrument is adjusted by the DCA fader, so that the DCA control unit 117 assigns to any DCA fader. A gain set in the DCA fader is given only to the input channel that is assigned, and the audio signal of the input channel that is not assigned to any DCA fader is not particularly processed (in other words, 0 [ dB] is applied to the stereo bus 118.

  A stereo output channel unit 120 adjusts the level and sound quality of the mixing result in the stereo bus 118. Reference numeral 122 denotes a MIX output channel section which performs level adjustment and sound quality adjustment of the mixing result in each of the MIX buses 116-1 to 116-96. An output patch unit 126 outputs the output signal of the stereo output channel unit 120, the output signal of the MIX output channel unit 122, and the direct out signal output from the input channel adjustment units 112-1 to 112-128 to the DA converter 4. Alternatively, it is assigned to an arbitrary output port of the digital output unit 7 or an arbitrary unit of the effector group 10.

  Next, details of the algorithm configuration in the input channel adjustment unit 112-1 corresponding to the first input channel will be described with reference to FIG. 3, the input channel adjustment unit 112-1 includes a main system unit 150-1, a direct out setting unit 170-1, and first to 96th MIX send setting units 190-1-1-1 to 190-1-96. Composed. However, since the configurations of the second to 96th MIX send setting units 190-1-2 to 190-1-96 are the same as those of the first MIX send setting unit 190-1-1, the illustration is omitted. In the main system section 150, reference numeral 152 denotes a high-pass filter section that is provided mainly to remove low-frequency noise. A low-pass filter unit 153 is provided mainly to remove high-frequency noise.

  A parametric equalizer unit 154 performs sound quality adjustment on the audio signal that has passed through the filter units 152 and 153. That is, the audio signal is band-divided into four bands of high frequency, mid-high frequency, mid-low frequency, and low frequency, and the frequency characteristics are adjusted by band-pass filter, low-pass filter, high-pass filter, or shelving filter for each band. Is done. Reference numeral 156 denotes a dynamics setting unit that performs expansion / compression processing of the dynamic range of the audio signal. Reference numeral 158 denotes a delay unit that delays the audio signal by a specified time. Reference numeral 160 denotes a fader unit that operates a gain given to the audio signal. The gain set in the fader unit 160 is adjusted by the electric fader provided in the operator group 22 and assigned to the channel.

  Reference numeral 162 denotes an on / off setting unit. When the audio signal output from the fader unit 160 is supplied to the stereo bus 118 via the DCA control unit 117, the on / off setting unit 162 is set to the on state, and is not supplied (in case of silence). Is set to the off state. The on / off state set in the on / off setting unit 162 is switched by the LED key assigned to the channel among the LED keys provided in the operator group 22. Reference numeral 164 denotes a PAN setting unit that sets the left and right volume balance when the audio signal is supplied to the stereo bus 118, and supplies the result to the DCA control unit 117 as the left signal SL-1 and the right signal SR-1. . Here, in the main system section 150-1, the input signal to the high-pass filter section 152 is Pre_HPF, the input signal to the parametric equalizer section 154 is Pre_PEQ, the input signal to the dynamics setting section 156 is Pre_Dyna, and the delay section 158 is input. The input signal is called Pre_Delay, the input signal to the fader unit 160 is called Pre_Fader, the output signal of the fader unit 160 is called Post_Fader, and the output signal of the on / off setting unit 162 is called Post_On.

  Next, in the direct-out setting unit 170-1, reference numeral 172 denotes a selector, which selects one signal from the above signals Pre_HPF, Pre_PEQ, Pre_Dyna, Pre_Delay, Pre_Fader, Post_Fader, and Post_On based on the user's selection operation. Select as an audio signal for direct out. Reference numeral 173 denotes an on / off setting unit which is set to an on state when the audio signal selected by the selector 172 is supplied to a subsequent component, and is set to an off state when not supplied. The on / off state set in the on / off setting unit 173 can be arbitrarily set by an operation on the operator group 22 or the touch panel 26. A level setting unit 174 sets a gain to be given to the audio signal output from the on / off setting unit 173 based on a user operation. The gain set in the level setting unit 174 can be arbitrarily set by an operation on the operator group 22 or the touch panel 26.

  Reference numeral 176 denotes an on interlocking unit, and the on / off state is set in conjunction with the on / off setting unit 162 of the main system unit 150-1. Reference numeral 178 denotes a follow-on switch whose ON / OFF state can be arbitrarily set by an operation on the operator group 22 or the touch panel 26. When the follow-on switch 178 is turned on, the output signal of the on-link unit 176 is selected. When the follow-on switch 178 is set to the off-state (shown state), the input signal to the on-link unit 176 is selected and selected. Output a signal. In other words, the follow-on switch 178 is a switch that switches between valid / invalid of the on-link unit 176.

  A fader interlocking unit 180 sets a gain in conjunction with the fader unit 160 of the main system unit 150-1. In other words, a gain having the same value as the gain set in the main system section 150-1 is applied to the input audio signal and output. Reference numeral 182 denotes a follow fader switch whose ON / OFF state can be arbitrarily set by an operation on the operator group 22 or the touch panel 26. When the follow fader switch 182 is turned on, the output signal of the fader interlocking unit 180 is selected. When the follow fader switch 182 is set to the off state (the state shown in the drawing), the input signal to the fader interlocking unit 180 is selected and selected. Output a signal. In other words, the follow fader switch 182 is a switch for switching between valid / invalid of the fader interlocking unit 180.

  Reference numeral 184 denotes a DCA interlocking unit, which gives the input audio signal a gain having the same value as the gain given to the input channel (first input channel) in the DCA control unit 117. That is, when the input channel is assigned to any DCA fader, the gain set by the DCA fader is set to the DCA interlocking unit 184, and the input channel is not assigned to any DCA fader. , A gain of 0 [dB] is set in the DCA interlocking unit 184. Reference numeral 186 denotes a follow DCA switch whose ON / OFF state can be arbitrarily set by an operation on the operator group 22 or the touch panel 26. When the follow DCA switch 186 is turned on, the output signal of the DCA interlocking unit 184 is selected. When the follow DCA switch 186 is set to the off state (the state shown in the drawing), the input signal to the DCA interlocking unit 184 is selected and selected. The signal is output as a direct out signal SD-1. In other words, the follow DCA switch 186 is a switch for switching the validity / invalidity of the DCA interlocking unit 184.

  According to the configuration of the direct out setting unit 170-1 described above, “when both the on / off setting unit 173 and the on interlocking unit 176 are in the on state”, “the on / off setting unit 173 is in the on state. When the follow-on switch 178 is in the off state (the state shown in the figure), the direct out signal SD-1 is in the on state. In other cases, the direct out signal SD-1 is in the off state. become. The gain finally given to the audio signal selected by the selector 172 is the gain set in the level setting unit 174 if both the follow-on switch 178 and the follow DCA switch 186 are on. And the gain set in the fader interlocking unit 180 and the gain set in the DCA interlocking unit 184 (a value obtained by adding these gains in the log scale).

  Next, the first MIX send setting unit 190-1-1 is configured by the components 192 to 206, which are the same as the components 172 to 186 of the direct out setting unit 170-1. In other words, the selector 192 selects one signal from the signals Pre_HPF, Pre_PEQ, Pre_Dyna, Pre_Delay, Pre_Fader, Post_Fader, and Post_On, and the on / off setting unit 193 and the level setting unit 194 respectively ON / OFF state and level of are set. Further, in the on interlocking unit 196 and the fader interlocking unit 200, the on / off state and the gain are set in conjunction with the on / off setting unit 162 and the fader unit 160 of the main system unit 150-1, respectively. The / invalid state is set in the follow-on switch 198 and the follow fader switch 202, respectively.

In the DCA interlocking unit 204, the DCA control unit 117 sets a gain having the same value as the gain given to the input channel, and the valid / invalid state is set by the follow DCA switch 206. The audio signal output from the follow DCA switch 206 becomes a MIX send signal SS-1-1 supplied from the first input channel to the MIX bus 116-1. The user can arbitrarily set the on / off state or gain set in each of the above-described components 192, 193, 194, 198, 202, and 206 by operating the operator group 22 or the touch panel 26.
As described above, the configuration of the second to 96th MIX send setting units 190-1-2 to 190-1-96 (not shown) is the same as that of the first MIX send setting unit 190-1-1, and each of the first input channels. MIX send signal SS-1-M supplied to the MIX bus 116-M (1 ≦ M ≦ 96).
Further, in the other input channel adjustment unit 112-N (1 ≦ N ≦ 128), similarly to the input channel adjustment unit 112-1, the main system unit 150-N, the direct out setting unit 170-N, and the first To 96th MIX send setting sections 190-N-1 to 190-N-96 are provided.

3． Operation of Embodiment In the configuration shown in FIG. 3, for example, when the signal Pre_HPF is selected by the selector 172, the filter units 152 and 153, the parametric equalizer unit 154, the dynamics setting unit 156, and the delay unit 158 in the main system unit 150-1. It is possible to generate the direct-out signal SD-1 that is not affected at all.
Here, when the follow-on switch 178 is turned on, the direct out signal SD-1 can be automatically turned on / off in conjunction with the on / off setting unit 162 of the main system unit 150-1. Further, when the follow fader switch 182 is set to the on state, the signal level of the direct out signal SD-1 can be automatically increased or decreased in conjunction with the fader level of the main system section 150-1. Further, when the follow DCA switch 186 is turned on, the signal level of the direct out signal SD-1 can be automatically increased or decreased in conjunction with the DCA fader assigned to the first input channel.
This also applies to the first to 96th MIX send setting units 190-1-1-1 to 190-1-96, and excludes the influence of the filter units 152, 153, etc., and is placed after the filter units 152, 153. Setting states of a certain fader unit 160, on / off setting unit 162, and the like can be reflected in the MIX send signals SS-1-1 to SS-1-96.

Four. Modifications The present invention is not limited to the above-described embodiments, and various modifications can be made as follows, for example.
(1) In the above embodiment, various operations are realized by a program set in the digital mixer. However, only this program is stored and distributed in a recording medium such as a CD-ROM or a memory card, or distributed through a transmission line. You can also

(2) In the above embodiment, the present invention is applied to a digital mixer. However, the present invention may be applied to an analog mixer that performs processing such as amplification and switching on an analog audio signal.

1: Digital mixer, 2: AD converter, 4: DA converter, 6: Digital input unit, 7: Digital output unit, 8: Audio bus, 10: Effector group, 12: DSP, 14: Communication bus, 16: Communication interface , 18: communication I / O unit, 20: detection / control interface, 22: operator group, 24: operation / display interface, 26: touch panel, 28: CPU, 30: ROM, 32: RAM, 108: input patch unit 112, 112-1 to 112-128: input channel adjustment unit, 116: MIX bus group, 116-1 to 116-96: MIX bus, 117: DCA control unit, 118: stereo bus (main system bus), 120 : Stereo output channel section (main system output adjustment section), 122: MIX output channel section (MIX output adjustment section), 126: Output Patch section, 150-1: main system section, 152: high pass filter section, 153: low pass filter section, 154: parametric equalizer section, 156: dynamics setting section, 158: delay section, 160: fader section (main system gain adjustment section) 162: On / off setting unit (main system on / off unit), 164: PAN setting unit, 170-1: Direct out setting unit, 172, 192: Selector (signal selection unit), 173, 193: On / off setting Parts (independent on / off part), 174, 194: level setting part, 176, 196: on-linked part (linked on-off part), 178, 198: follow-on switch (linked on-off enable / disable selection means), 180, 200: fader linked part (Linked gain setting section), 182 and 202: Follow fader switch (Linked gain availability selection) Stage), 184,204: DCA interlocking part, 186,206: follow DCA switch, 190-1-1: first 1MIX send setting section.

Claims (2)

A plurality of input channel adjustment units that perform sound quality adjustment or gain adjustment on the input audio signals supplied to each, and output a main system signal and a plurality of MIX send signals as a result,
A main system bus for mixing the main system signals output from the input channel adjustment units;
A plurality of MIX buses for mixing the MIX send signals output from the input channel adjustment units;
A main system output adjustment unit that performs sound quality adjustment or gain adjustment on the mixing result in the main system bus, and outputs a main system output signal as a result thereof;
A MIX output adjustment unit that performs sound quality adjustment or gain adjustment on a mixing result in each of the MIX buses, and outputs a MIX output signal as a result;
An output patch unit that arbitrarily assigns the main system output signal and each MIX output signal to any one of a plurality of output ports;
Each of the input channel adjustment units includes a main system unit that generates the main system signal and a plurality of MIX send units that generate the MIX send signals.
Each main system part is
A filter unit that performs a filtering process on the input audio signal;
A main system gain adjusting unit for adjusting the gain of the audio signal output from the filter unit;
A main system on / off unit for switching whether or not to supply the audio signal output from the main system gain adjustment unit to the main system bus,
Each of the MIX sends is
A signal selection unit that selects one audio signal from a plurality of signals including at least an input signal to the filter unit and an input signal to the main system gain adjustment unit among signals in the main system unit;
An interlocking gain setting unit that gives a gain that increases or decreases in conjunction with the gain of the main system gain adjustment unit to the audio signal selected by the signal selection unit;
It possesses the selected audio signals at the signal selection unit, and a interlocking off unit for setting a conjunction with ON / OFF state to the ON / OFF state of the main system off portion,
The on / off state set in the interlock on / off unit is the same as the on / off state set in the main system on / off unit,
The gain set in the interlocking gain setting unit is the same as the gain set in the main system gain adjustment unit,
Each of the MIX sends is
An independent on / off unit capable of setting the on / off state independently of the on / off state in the interlock on / off unit;
Each having an independent gain setting unit capable of setting the gain independently of the gain in the interlocking gain setting unit,
The on / off state of the MIX send signal is turned on when both the independent on / off unit and the linked on / off unit are on, and at least one of the independent on / off unit and the linked on / off unit is When it ’s off, it ’s off,
The gain given to the MIX send signal is a value obtained by combining the gain set in the independent gain setting unit and the gain set in the interlocking gain setting unit.
Mixer, characterized in that. The MIX send section is
Linked on / off enable / disable selecting means for setting the valid / invalid state of the linked on / off section;
The mixer according to claim 1, further comprising a linked gain permission selecting means for setting the valid / invalid state of the interlocking gain setting unit.

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