JP2009218969A - Amplifier control apparatus, amplifier system and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To perform flexible setting with a little time and labor regarding grouping of amplifiers, even when performing a centralized control onto a number of amplifiers from an amplifier control apparatus. <P>SOLUTION: In an amplifier control apparatus for controlling a plurality of amplifiers by communicating with the plurality of amplifiers each storing group data indicating a group, to which the amplifier belongs, respectively, amplifier data are obtained from an amplifier communicable from its own amplifier (S12, S13) and are compared with contents of project data stored in the own amplifier. In the case where the data are mismatched even partially, in accordance with a matching scheme corresponding to an instruction from a user, preferentially for data on an amplifier side or on a PC side, the amplifier data and the contents of the project data are matched (S17-S20). <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an amplifier control device that communicates with a plurality of amplifier devices and controls the plurality of amplifier devices in groups, an amplifier system including such an amplifier control device and an amplifier device to be controlled, and a computer. The present invention relates to a program for functioning as an amplifier control device as described above.

Conventionally, there has been known an amplifier control system in which a PC is used as an amplifier control device and is connected to an amplifier (amplifier) via a network so that a large number of amplifier devices can be centrally controlled and managed from the PC. Yes.
In an environment where a large number of speakers are used, such as a concert venue or a theater, a large number of amplifiers are also used. However, if this can be controlled centrally from a PC, it is not necessary to go to the location of the amplifier. Since the operation of each amplifier can be set, the setting work can be performed efficiently.

In a control apparatus, amplifiers to be controlled or signal processing channels of the amplifiers are grouped, and parameter values are collected on one screen for each group so that they can be collectively referred to.
Such an amplifier control system is described in Non-Patent Document 1, for example.
"NetworkAmpManager instruction manual", Yamaha Corporation, 2003 (especially p.32-34)

By the way, in the above-described conventional amplifier control system, amplifier grouping can be set only in the control device. In response to this, there has been a demand for a certain degree of group setting on the amplifier side.
However, if the group setting can be performed on the amplifier side, the group setting may be changed without being connected to the amplifier control device. In this case, the group setting data on the amplifier control device side and the group setting data in each amplifier contradict each other, which causes a problem in controlling the amplifier.
In addition, when carrying a PC used as an amplifier control device to various facilities to control an amplifier at that location, there is a problem that it is troublesome to set a group from scratch on the PC side.
The object of the present invention is to solve these problems and to enable a high degree of freedom for grouping amplifiers with little effort even when a large number of amplifiers are centrally controlled from an amplifier controller. To do.

  In order to achieve the above object, the amplifier control device of the present invention communicates with a plurality of amplifier devices each storing group data indicating a group to which the own device belongs, and controls the plurality of amplifier devices. In the control device, storage means for storing group management data defining a group to which each amplifier device to be controlled belongs, editing means for editing the group management data according to a user operation, and each amplifier according to a user operation A matching unit for matching the group data stored in the device and the group management data stored in the storage unit, and the matching unit from an amplifier device that can communicate from its own device when performing the matching Group data acquisition means for acquiring group data stored in the amplifier device, and group information acquisition means According to the user's instruction when the comparison result by the comparison means is partially inconsistent. In the matching method, at least (a) the group management data stored in the storage means is stored for each amplifier device from which the group data acquisition means has acquired group data. Among them, according to the control device priority system that transmits the data of the portion corresponding to the amplifier device and sets it as the group data of the amplifier device, and b) according to the contents of the group data of each amplifier device acquired by the group data acquisition means An amplifier device priority method for updating the group management data is included.

An amplifier system of the present invention is an amplifier system comprising the above amplifier control device and a plurality of amplifier devices that can communicate with the amplifier control device and store group data indicating groups to which the own device belongs. is there.
In such an amplifier system, the group management data stored by the storage means of the amplifier control device includes the group ID to which the amplifier device to be controlled belongs and the group name data corresponding to the ID of each group. Including the ID of the group to which the amplifier device belongs in the group data stored by each of the amplifier devices, and the amplifier control device may manage the name of the group in a unified manner.
Moreover, the program of this invention is a program for functioning a computer as said amplifier control apparatus.

According to the amplifier control device and the amplifier system of the present invention as described above, even when a large number of amplifiers are centrally controlled from the amplifier control device, a high degree of freedom can be set for amplifier grouping with a small amount of labor. For the purpose.
Further, according to the program of the present invention, the computer can function as the amplifier control device as described above, and the same effect can be obtained.

Hereinafter, the best mode for carrying out the present invention will be specifically described with reference to the drawings.
First, FIG. 1 shows a configuration of an amplifier system including a PC which is an embodiment of the amplifier control device of the present invention.
As shown in FIG. 1, the amplifier system includes a PC 10, amplifiers 20a and 20b, an amplifier management device 25, amplifiers 26a and 26b, SPs (speakers) 30a to 30h, a mixer 40, and microphones 50a to 50n. Of these, the PC 10, the amplifiers 20a to 20b, the amplifier management device 25, and the mixer 40 are connected by an Ethernet (registered trademark) network 60 and can communicate with each other.

In addition, the amplifier management device 25 is connected to the amplifiers 26a and 26b by serial communication cables indicated by alternate long and short dash lines in the drawing, and can communicate with each other.
The microphones 50a to 50n, the mixer 40, the amplifiers 20a and 20b and 26a and 26b, and the SPs 30a to 30h are connected by audio cables indicated by broken lines in the figure, and audio data is transmitted from top to bottom in the figure. It can be transmitted.

  Each of these devices mixes the acoustic signals obtained by collecting the microphones 50a to 50n with the mixer 40, amplifies the resulting output acoustic signals with the amplifiers 20a and 20b, and 26a and 26b, and SP30a to 30h. And an acoustic signal processing system for generating sound based on the output acoustic signal.

  On the other hand, the PC 10 is an amplifier control device that controls the amplifiers 20a, 20b and 26a, 26b. Then, by transmitting / receiving control data such as various commands to / from the amplifiers 20a and 20b via the network 60, the values of parameters used by the amplifiers 20a and 20b for processing acoustic signals are edited, and the amplifier 20a , 20b can be set variously.

  As for the amplifiers 26a and 26b, these devices do not have a function of directly communicating with the PC 10 via the network 60 and receiving control thereof. Therefore, an amplifier management device 25 that manages the parameter values used by the amplifiers 26a and 26b for processing the acoustic signals and the setting contents used by the amplifiers 26a and 26b is provided and connected to the network 60. Then, the PC 10 indirectly requests the amplifier management device 25 for parameter values and setting information used by the amplifiers 26a and 26b, or requests the contents to be changed, thereby indirectly connecting the amplifier 26a. , 26b is controlled.

Here, the PC 10 also functions as a mixer control device that controls the mixer 40, and can edit parameter values and make various settings for the mixer 40.
In the amplifier system shown in FIG. 1, the PC 10, the amplifiers 20a, 20b, 26a, and 26b, and the amplifier management device 25 are parts related to the features of this embodiment. About another apparatus, a system can be comprised using a well-known thing.

  In the following description, when an amplifier or the like is indicated without specifying an individual, a symbol without an alphabet such as “20” is used. In the following description, unless specifically stated otherwise, when describing the amplifier, the contents related to the amplifier 20 will be described as a representative, and the amplifier 26 will not be referred to. However, in the amplifier system of FIG. 1, it can be considered that the amplifiers 26a and 26b are integrated with the amplifier management device 25 to realize the same functions as the amplifiers 20a and 20b.

Next, FIG. 2 shows a hardware configuration of the PC 10 shown in FIG.
The PC 10 can be configured using a known PC as hardware. For example, a CPU 101, a ROM 102, a RAM 103, a display control circuit 104, an operation detection circuit 105, a communication interface (I / F) 106, and an HDD (hard disk drive) 107 are provided, and these are connected by a system bus 108. it can.

Then, by causing the CPU 101 to execute an appropriate program stored in the ROM 102 or the HDD 107, the functions as the amplifier control device and the mixer control device described above can be realized.
The display control circuit 104 is a circuit that controls display on a display 111 such as a display, and the operation detection circuit 105 is a circuit that detects an operation on an operation element 112 such as a keyboard or a mouse.

With these circuits, the PC 10 can present information to the user and accept user operations. Needless to say, a device external to the PC 10 may be used as a display or an operator.
The communication I / F 106 is an interface for communicating with external devices such as the amplifier 20 and the mixer 40 connected to the network 60 shown in FIG.

Next, FIG. 3 shows a hardware configuration of the amplifier 20 shown in FIG.
As shown in FIG. 3, the amplifier 20 includes a CPU 201, ROM 202, RAM 203, display control circuit 204, operation detection circuit 205, communication I / F 206, audio input I / F 207, DSP (digital signal processor) 208, DA conversion. 209 and a state monitoring circuit 211, which are connected by a system bus 212. In addition, the audio input I / F 207, the audio output I / F 208, and the signal processing unit 209 are connected to each other by an audio signal line, and the amplifier circuit 210 is also connected to the audio signal line.

  The CPU 201 executes an appropriate program stored in the ROM 202 to control transmission / reception of data and sound signals via the I / Fs 206 and 207, control of signal processing by the DSP 208, display control circuit 204, The operation detector circuit 205 controls the display 213 and the operator 214.

A network I / F 206 is an interface for connecting to the network 60 illustrated in FIG. 1 and performing communication with external devices such as the PC 10.
The audio input I / F 207 is an interface for inputting a sound signal by connecting a cable. The input acoustic signal may be digital audio waveform data or an analog signal. However, when an analog signal is input, it is AD-converted and input as digital waveform data.

The DSP 208 is a signal processing means that outputs the waveform data supplied from the audio input I / F 207 by performing signal processing such as phase adjustment, attenuation (attenuation), level adjustment, and output on / off control.
The DA converter 209 converts the waveform data after processing by the DSP 208 into an analog acoustic signal.

The amplification circuit 210 amplifies the current, voltage, or power of the acoustic signal output from the DA converter 209, converts the amplified signal into a high-output analog acoustic signal suitable for driving the speaker 30, and outputs the analog signal from the cable.
The state monitoring circuit 211 is a circuit for monitoring the operation of the amplifier circuit 210 so that the CPU 201 can grasp the state.

Next, FIG. 4 shows a hardware configuration of the amplifier management device 25.
As shown in FIG. 4, the amplifier management device 25 includes a CPU 251, a flash memory 252, a RAM 253, a display control circuit 254, an operation detection circuit 255, a network I / F 256, and an HDD (hard disk drive) 107. It can be set as the structure connected by.

  Then, the CPU 251 executes a suitable program stored in the flash memory 252, thereby realizing a function for managing the amplifier 26 in accordance with a request from the PC 10. Note that the amplifier management device 25 can manage the amplifier 26 independently even when not connected to the PC 10.

The flash memory 252 is a non-volatile storage unit, and stores later-described amplifier data including ID, group settings, signal processing parameters, and the like for each amplifier 26 to be managed in addition to a program executed by the CPU 251.
The display control circuit 254 is a circuit that controls display on the display 261 such as a display panel or a lamp, and the operation detection circuit 255 is a circuit that detects an operation on the operation element 262 such as a key or a knob.
The amplifier I / F 257 is an interface for connecting the amplifier 26 to be managed.

Next, a grouping setting method for the amplifiers 20 in the PC 10 will be described.
First, FIG. 5 shows a display example of a group setting screen for receiving a grouping instruction.
A group setting screen 300 shown in FIG. 5 is a GUI (graphical user interface) displayed on the display device 111 by the PC 10, and is a screen for accepting a setting operation related to grouping of the mixers 20 to be controlled. Further, the display content of this screen is defined according to project data described later, and when the group setting is changed on this screen, the content is immediately reflected in the project data.

The group setting screen 300 includes a category tab 301, a group configuration display unit 310, and a device list display unit 320.
Among these, the category tab 301 is a tab for selecting a category of a group set on the group setting screen 300. For this amplifier system, multiple types of groupings of amplifiers 20 can be specified. Here, three types of "Rack", "Feed structure", and "User defined (UD1)" are prepared. As the category tabs 301, tabs corresponding to these are provided.

  The “rack” is a group that classifies the amplifiers 20 in units of one device, and the “feed structure” is a group that classifies in units of output channels (channels) in the amplifier 20. Therefore, in the case of “feed structure”, a plurality of output channels in one amplifier 20 may belong to different groups. The user can set which “user definition” is set. Also, a plurality of user-defined groupings can be provided.

FIG. 5 shows an example in which the “rack” tab is selected, but the grouping operation is the same for other types of grouping including “feed structure”.
The group configuration display unit 310 is a part that displays a group defined hierarchically in the PC 10 and amplifiers (or chs) belonging to the group in a tree format.

  An entry including the uppermost area icon 311 indicates an area that is a set of groups defined by one project data described later. Here, since the PC 10 divides all the amplifiers 20 to be controlled into one of a set of groups, there is only one area. However, it is also possible to classify the amplifier 20 to be controlled by ID, address, etc., divide it into a plurality of areas, and set grouping for each of them.

  An entry including the group icon 312 indicates one group. Here, groups can be provided in three layers. For example, in the example shown in the figure, three groups of “FOH”, “Monitor”, and “Others” are provided in the highest hierarchy immediately below “Area-1”, and “Stage_L” is located under “FOH”. There are three groups: “Stage_R” and “Operator”. Furthermore, two groups of “001_Rack_ # 1” and “002_Rack_ # 2” are provided below “Stage_L”.

  In addition, the area icon 311 and the group icon 312 are provided with a corresponding expansion button 313. When this button is clicked to make the state "-", contents lower than the corresponding icon can be displayed. . In addition, when the state is “+”, the lower content can be hidden.

  An entry including a rectangular device icon 314 located in the lower part of the group indicates an amplifier 20 belonging to the group. In the example of FIG. 5, two amplifiers 20 of “001: 001 Tx6n” and “002: 002 Tx6n” belong to the group “001_Rack_ # 1”. In this character string, the number before the colon indicates the number of the device in the group, the number after the colon is the device ID, and the character string after that is the device name (here Shows the model name). Further, the amplifier 20 can belong to any hierarchy group.

  Next, the device list display unit 320 is a display unit that displays a list of amplifiers 20 to be controlled by the PC 10. The device list display section 320 is provided with a device name display section 321 and a device ID display section 322, and displays the name and ID of each amplifier on these display sections. A device icon 323 indicating a device is also displayed beside the device name. This icon is the same as the device icon 314 in the group configuration display unit 310.

  Note that in the PC 10, the devices displayed in the device list display unit 320 always belong to any group. A device whose group is not explicitly specified belongs to a group “Others” displayed at the bottom of the group configuration display unit 310.

Here, FIG. 6 and FIG. 7 show examples of device registration in the group setting screen 300.
On the group setting screen 300, as indicated by an arrow in FIG. 6, the device icon 323 of the device displayed on the device list display unit 320 is dragged and dropped at the position of the group icon 312 of the group to which the device is to be added. Thus, it is possible to instruct to add the device to the group.

As a result of the operation of FIG. 6, as shown in FIG. 7, an entry 330 indicating the amplifier 20 of “003: 003 Tx6n” is added to the group of “001_Rack_ # 1”, and the group setting is changed according to the operation. I understand that.
Each device cannot belong to a plurality of groups at the same time, and when a certain device is added to a certain group, the device leaves the group to which it previously belonged.
Further, when the group setting is changed while the PC 10 and the amplifier 20 are connected, the PC 10 transfers the information on the new group to the amplifier 20 and updates the group setting information on the amplifier 20 side.

  Although illustration is omitted, the group configuration display unit 310 can also add and delete groups. By right-clicking on the group icon 312 and selecting Add Group from the menu displayed, a new group can be added below the group indicated by the group icon 312. Further, when deletion is selected from the menu, the group indicated by the group icon 312 can be deleted. In this case, the devices belonging to the deleted group are moved to the “Others” group.

By the way, when a group is created in the PC 10, an ID is automatically assigned. However, this ID can be arbitrarily changed by the user.
FIG. 8 shows a display example of a group ID setting screen for performing this instruction.
When the change of the group ID is selected from the menu displayed by right-clicking on the group icon 312 described above, the PC 10 receives an ID setting instruction for the group corresponding to the group icon 312 in FIG. The group ID setting screen 400 shown is displayed on the display unit 111.

In the group ID setting screen 400, a target group display unit 401, an ID input unit 402, an OK button 403, and a cancel button 404 are provided.
Among these, the target group display unit 401 displays the name of the group for which the ID is to be set. “Stage_L” highlighted in the figure is the group to be set, and in order to make the position of the group easy to understand, the names of the groups in the upper and lower layers are also displayed.

The ID input unit 402 is an area for receiving an input of an ID to be set. Here, an integer from 0 to 65535 is used as the ID, and the user may type-type a desired number into the ID dormitory unit 402 within this range.
Thereafter, the ID setting is confirmed by pressing the OK button 403, and when the cancel button 4040 is pressed, the ID setting is not performed and the screen returns to the group setting screen 300.

Although it is not necessary for the IDs to be serial numbers between groups, there can be only one group with the same ID in the lower hierarchy of one group. For example, if there is already a group with the group ID “1” under the group “FOH”, the ID “1” cannot be set for another group under the group “FOH”.
Further, the group ID of each group can be displayed on the group setting screen 300 by the user's selection.

FIG. 9 shows a display example of the group setting screen in this case.
When the user selects display of a group ID, the group configuration display unit 310 may display the ID of the group as a number with parentheses after the name of each group.

  In the PC 10 and the amplifier 20, each group is specified not only by the ID of the group itself but also by describing the IDs by connecting them with a hyphen in order from the top. The information used for this identification is hereinafter referred to as “group identification information”. For example, in the case of the group “Stage_L” illustrated in FIG. 9, the group specifying information is “0-0”, and in the case of the group “001_Rack_ # 1”, the group specifying information is “0-0-1”. It is.

  Further, in this specifying method, even if the ID of the group itself does not change, the group specifying information changes when the ID of the upper group is changed. For example, when the ID of the group “Stage_L” is changed to “5” in the example of FIG. 9, the group specifying information of the group “001_Rack_ # 1” is “0-5-1”.

  In consideration of these, when the ID of any group is changed, not only the amplifier 20 belonging to that group but also the amplifier belonging to the lower group whose group identification information changes with the change is specified as a group. The change of information is notified, and the group setting information on the amplifier 20 side is updated.

Next, a setting method of grouping of own devices in the amplifier 20 will be described.
First, FIG. 10 shows a configuration of an operation panel provided in the amplifier 20.
As described above, the amplifier 20 includes the display device 213 and the operation element 214, but the operation panel is a panel in which the display device 213 and the operation element 214 are arranged.
More specifically, the operation panel 500 is provided with a power switch 501, a display panel 502 using a liquid crystal display, a channel operator group 510 and 520, and some other operators.

Among these, the channel operator groups 510 and 520 are a collection of operators and indicators for setting and displaying the output channels included in the amplifier 20. The channel operator groups 510 and 520 include rotary encoders 511 and 521 for setting an output level, and mute buttons 512 and 522 for setting mute on / off. The description is omitted because it is not particularly relevant.
The amplifier 20 can set a group to which the own device belongs by operating the operation panel as described above.

11 and 12 show examples of display screens at the time of setting. These screens are GUIs displayed on the display panel 502.
FIG. 11 shows a group category selection screen 600. This screen is a screen that is displayed first when the amplifier 20 is operated to operate a predetermined operator to enter a group setting mode, and is a screen that accepts selection of which type of group to set.

Then, when the user moves the cursor 601 with the operator on the operation panel 500 to select the type and instructs to move to the next screen, the display shifts to the group specifying information setting screen 610 shown in FIG.
The group specification information setting screen 610 is a screen for accepting the setting of group specification information indicating the group to which the amplifier 20 belongs for the type of group selected on the group category selection screen 600.

  On this group specifying information setting screen 610, group specifying information can be input by moving the cursor 611 and increasing / decreasing the ID of the cursor position according to the operation of the rotary encoders 511 and 521. When a desired value is input and then the operator on the operation panel 500 is operated to confirm the value, the group category selection screen 600 is displayed again.

In addition, when under the control of the PC 10, only the group defined on the PC 10 side may be set. However, when the amplifier 20 is operating alone, what is the group definition on the PC 10 side? Regardless, any group specific information can be set.
The amplifier 20 can also set its own device ID.

FIG. 13 shows an example of a device ID setting screen for performing this setting.
When the group and ID are set on each of the above screens, if the amplifier 20 is under the control of the PC 10 at that time, the newly set content is transmitted to the PC 10 and the content of the project data on the PC 10 side. Is updated to the newly set content. However, if the setting is made while the amplifier 20 is operating alone, communication with the PC 10 is not possible. Therefore, the amplifier 20 does not update the updated data regardless of the PC 10 side until it is connected to the PC 10 next time. Hold.

Next, data used for the control of the amplifier 20 described above by the PC 10 will be described.
FIG. 14 is a diagram illustrating an example of project data indicating a configuration of an amplifier system controlled by the PC 10.
When controlling each amplifier 20 constituting the amplifier system, the PC 10 stores the project data shown in this figure in the RAM 102 and performs control according to the data. Further, the project data can be stored in a storage unit such as the HDD 107, read according to a user instruction, stored in the RAM 102, and reflected in the control of the amplifier 20.

As shown in FIG. 14, the project data includes project name, user information, amplifier data related to each amplifier 20, amplifier management device data related to each amplifier management device 25, and group name data.
Of these, the project name is the name of the project data.
The user information is information that defines authority information such as a user who is permitted to access the project data.
The amplifier data is data indicating information related to the amplifier 20 that is directly communicated and controlled by the PC 10, and one set of amplifier data is provided for each amplifier.

The contents of the amplifier data are roughly divided into system setting information and parameter setting information.
Of these, the system setting information is data used for management of the amplifier 20 that is not directly related to the contents of the signal processing. The system management information includes an ID, an IP address, the number of output channels, and group setting information.

  Of these, ID is the device ID of the amplifier 20 described above. The IP address is the IP address of the amplifier 20 that is used when the PC 10 communicates with the amplifier 20. The number of input / output channels is the number of input channels and output channels included in the amplifier 20. This information is used to determine how many groups group identification information is to be prepared for in a group of types in which output channels are grouped. The parameter setting information is also used when determining how many channels of data are to be prepared.

  The group setting information includes data of group specifying information indicating the group to which the amplifier 20 belongs for each type of group described above. The type of grouping output channels includes data of group specifying information indicating the group to which the output channel belongs for each output channel. In the example of the figure, “Feed st.” And “UD1” correspond to this, and data regarding the #A output ch and #B output ch are prepared. This group setting information is group management data.

Next, the parameter setting information is data indicating the value of a parameter used for signal processing on each input channel and output channel included in the amplifier 20. This data includes, for example, an input level (Input Level), a peak hold value (Peak), a mute on / off (Mute), and the like.
The amplifier management device data is data indicating information related to the amplifier 26 that the PC communicates and controls via the amplifier management device 25 and information on the amplifier management device 25 itself. One set of management device data is provided.

  The amplifier management device data includes data indicating the ID and IP address of the amplifier management device 25 and amplifier data indicating information regarding each amplifier 26 connected to the amplifier management device 25. In the figure, an example in which amplifier data regarding two amplifiers #A and #B is included is shown. The configuration of the amplifier data included here is the same as the amplifier data related to the amplifier 20 described above.

  The group name data is data indicating a character string for displaying the name of the group. For each group type, the name of the group created in each layer is displayed for each group ID. Note that the ID need not be a sequential number. Further, the data shown in FIG. 14 does not match the contents of FIG. 5 and the like, and for the convenience of illustration, shows data for only some groups. Actually, data that makes the hierarchy, ID, name, and hierarchical relationship clear is prepared for all created groups.

In addition, the amplifier data included in the project data can be stored in the amplifier 20 (or the amplifier management device 25 or the amplifier 26) as it is and used by the amplifier 20 for its own control.
That is, as shown in FIG. 15, the amplifier 20 stores its own amplifier data.

Based on the parameter setting information, the contents of the signal processing performed by itself are controlled. The system setting information is used when receiving control by the PC 10. The group setting information in the amplifier data on the amplifier device 20 side corresponds to group data.
Although not shown, the amplifier management device 25 stores data in the same format as the amplifier management device data shown in FIG. 14, and sets the amplifier data of the amplifier in the amplifier 26 as necessary.

The contents of the amplifier data on the amplifier 20 side are synchronized with the PC 10 side under the control by the PC 10 so as to be the same as the own amplifier data included in the project data. However, as described above, if the amplifier 20 is changed while operating alone, it may not match the data on the PC 10 side.
Further, even when the PC 10 is operating alone, the project data can be edited. In this case, the amplifier data is changed regardless of the amplifier 20 side.

  The main feature of this embodiment is that the PC 10 side and the amplifier 20 side independently edit the amplifier data as described above, and when the contents do not match or the PC 10 has no contact at all. When the control is started with the amplifier 20 connected, the process of matching the contents of the amplifier data on the PC 10 side and the amplifier 20 side is performed. Next, processing for this matching will be described.

  In the processing described below, the PC-side processing is performed by the CPU 101 of the PC 10 executing a required program, and the amplifier-side processing is required by the CPU of the amplifier 20 (or the amplifier management device 25 or the amplifier 26). This is done by executing the program.

First, FIG. 16 shows a flowchart of processing at the start of amplifier control.
When the CPU 101 of the PC 10 is designated with project data (either currently used for control or stored in the HDD 107 or the like) and receives an instruction to start control of the amplifier 20 using the project data, The process shown in the flowchart of FIG. 16 is started.

  First, an amplifier that is in a range that can be communicated from the own device and that can be controlled from the own device (corresponding to the control function of the own device) is searched (S11). In this search, both the amplifier 20 and the amplifier 26 are hit, but for the amplifier 26, the amplifier management device 25 may receive the search on behalf and return the data of the amplifier 26. Similarly for the following processing, the amplifier management device 25 may perform communication on behalf of the amplifier 26.

  Next, the CPU 101 requests each amplifier 20 found in step S11 to transmit amplifier data stored in the amplifier 20 (S12). On the other hand, the CPU of the amplifier 20 starts the processing shown in the flowchart on the right side of FIG. 16, and transmits the amplifier data stored in the own device to the request source (S31).

On the other hand, when the CPU 101 acquires amplifier data from each amplifier found in step S11 (S13), the CPU 101 also acquires the contents of project data to be validated (used for control) (S14). Then, the amplifier data included in the project data is compared with the amplifier data acquired from each amplifier (S15).
If the contents are exactly the same (S16), it is not necessary to maintain consistency between the PC 10 side and the amplifier 20 side, so control of the amplifier 20 is started based on the project data acquired in step S14. (S22), and the process ends.

However, if even part of the content is different in step S16, the process proceeds to step S17 and subsequent steps in order to ensure data consistency between the PC 10 side and the amplifier 20 side. Here, even if the contents of the amplifier data are identical, even if there is a remaining amplifier data on either the PC 10 side or the amplifier 20 side, the determination in step S16 is NO.
In this case, an instruction is received from the user as to which setting on the PC 10 side or the amplifier 20 side should be prioritized (S17), and processing corresponding to the content of the instruction is performed.

FIG. 17 shows an example of a synchronization mode selection screen for accepting this instruction.
In the synchronization mode selection screen 700, the mode selection unit 701 accepts selection of whether to give priority to the setting on the PC 10 side or the setting on the amplifier 20 side. Then, when the user selects one and then presses the OK button 702, it is assumed that the selection is made. Further, when the cancel button 703 is pressed, it is assumed that the control is to be stopped.

Returning to the description of FIG.
The CPU 101 determines which selection has been made in step S18. If an amplifier is selected, the amplifier-side setting contents reflection process shown in FIG. 18 is executed (S19), and if a PC is selected. The PC-side setting content transmission process shown in FIG. 19 is executed (S20). In these cases, control of the amplifier 20 is started based on the project data after these processes (S21), and the process is terminated.

If cancel is selected in step S18, the control based on the project data is stopped and the process ends.
The processing in FIG. 16 described above corresponds to the function of the matching unit, and the CPU 11 functions as a group data acquisition unit in steps S12 and S13 and as a comparison unit in step S15.

Here, FIG. 18 shows a flowchart of the amplifier-side setting content reflection process executed in step S19 of FIG. This processing corresponds to processing for matching amplifier data in the amplifier device priority method.
In this process, the CPU 101 first clears all amplifier data in the project data (S41). Thereafter, one of the amplifier data acquired in step S13 is set as a processing target (S42), and the amplifier data is added to the project data (S43). If the group indicated by the group setting information in the amplifier data to be processed is not yet defined in the project data, that is, if the group name corresponding to the group ID is not in the group name data (NO in S44), it is not yet determined. Data relating to the definition group is added to the group name data (S45). At this time, the name of the group is automatically generated. If YES in step S44, this process is not necessary.

  In either case, while there is amplifier data not yet processed (S46), the next amplifier data is processed (S47), and the processing from step S43 is repeated. Then, when all the amplifier data is set as a processing target and the addition to the project data is completed (NO in S47), the processing returns to the processing in FIG.

Through the above processing, the project data can be updated according to the contents of the amplifier data acquired from each amplifier 20. Therefore, the contents of the amplifier data can be matched between the PC 10 side and the amplifier 20 side.
This mode is effective when the PC 10 is newly connected to an environment in which the amplifier device 20 has already been appropriately set to some extent. For example, when a set of equipment is rented and the equipment is controlled using its own PC.

In step S41, all group name data may be cleared. In this case, the group definition is also completely updated according to the contents of the amplifier data acquired from each amplifier 20.
If there is an amplifier management device 25, the ID and IP address of the amplifier management device are acquired in step S13, and amplifier management device data is created in step S43, and the amplifier data of the amplifier 26 is stored therein. It is good to add.

Next, FIG. 19 shows a flowchart of the PC-side setting content transmission process executed in step S20 of FIG. This process corresponds to the process of matching the amplifier data by the control device priority method.
In this process, the CPU 101 first sets the first amplifier data in the project data as a processing target (S51). Then, it is determined whether or not there is an amplifier 20 that matches the ID and IP address of the amplifier data to be processed within a controllable range (the search result of S11 may be used) (S52).

  If there is a corresponding amplifier, the processing target amplifier data is transmitted to the corresponding amplifier and stored as the amplifier data of the amplifier (S53). On the other hand, the CPU of the destination amplifier 20 starts the processing shown in the flowchart on the right side of FIG. 19, sets the received amplifier data as the amplifier data of its own device, and returns the setting result (S62).

  The CPU 101 determines the success or failure of the setting based on this reply (S54). If successful, while there is amplifier data not yet processed in the project data (S57), the next amplifier data is processed (S58), and the processing from step S52 is repeated. On the other hand, if it is a failure in step S54, error processing (S55) is performed, and then the same processing is repeated.

If there is no matching amplifier in step S52, the amplifier data to be processed is invalidated (S56), and the process is repeated in the same manner. In this case, it is sufficient that the processing target amplifier data is not used for the control of the amplifier 20, and it is not necessary to completely erase the processing target amplifier data.
Then, when the process is completed for all the amplifier data (NO in S57), the process returns to the process of FIG.

  Through the above processing, the amplifier device 20 that has acquired the amplifier data, that is, the amplifier device 20 that can communicate from the PC 10 and can be controlled, transmits the amplifier data corresponding to the amplifier in the project data to be set. be able to. Therefore, the contents of the amplifier data can be matched between the PC 10 side and the amplifier 20 side within the data range included in the project data.

Note that the amplifier data without the corresponding amplifier 20 is not used for amplifier control, so that there is no situation where there is no amplifier to be controlled even though there is amplifier data on the PC 10 side.
Even if there is an amplifier 20 that can be controlled, there is a situation in which control cannot be performed because there is no amplifier data on the PC 10 side. However, in this case, after the processing of FIG. 16 is completed, the amplifier data is individually acquired from the amplifier 20 having no amplifier data and incorporated into the project data, as in the case of newly adding an amplifier, and is controlled. And it is sufficient.

  In this mode, once project data is created according to the environment of the amplifier device 20, the PC 10 is removed and brought home, the group and parameters are edited on the PC 10 side, and then the amplifier device 20 in the same environment is controlled. This is effective when the contents edited on the PC 10 side are to be reflected in the control.

  According to the amplifier system described above, when the PC 10 starts control of the amplifier 20, the control can be started by automatically matching at least the setting contents regarding the group between the PC 10 and the amplifier 20. Even when a large number of amplifiers are centrally controlled from a device, it is possible to perform a setting with a high degree of freedom for grouping amplifiers with little effort. That is, it is possible to set a group with a device preferable for the user on both the PC 10 side and the amplifier 20 side, and reflect it in the contents of control by the PC 10.

  In the amplifier system described here, the group name is centrally managed on the PC 10 side, and the amplifier 20 sets the group to which the amplifier 20 belongs only by the group ID. Can be made. Also, when matching is performed, it is not necessary to consider the group name, so that the matching process can be simplified.

This is the end of the description of this embodiment. However, the configuration of the system and apparatus, the configuration of the screen, the configuration of data, the specific processing content, the operation method, and the like are not limited to those described in the above embodiment. Of course.
For example, the group setting operation method on the group setting screen 300 may be different from that of the above-described embodiment.

  As an example of this, as shown in FIG. 20, it is conceivable to provide a check box 324 corresponding to each device in the device list display unit 320. Then, after selecting the group icon 312 of the desired group in the group configuration display unit 310 (the group “001_Rack_ # 1” is selected in the figure), the check box 324 of the device to belong to the group is turned on. Thus, the device may belong to the group. Further, when the group icon 312 is selected, only the check box 324 corresponding to the device belonging to the group may be turned on in the device list display unit 320.

  In the above-described embodiment, the example in which the network 60 and the serial communication cable and the audio cable are separately provided has been described. However, in the range of devices connected by the network 60 and the serial communication cable, the network 60 and the serial communication cable are routed through these. Audio waveform data may be transferred. In the case of the example in FIG. 1, this corresponds to between the mixer 40 and each of the amplifiers 20 and 26.

In the above-described embodiment, the matching method is only the PC-side priority and the amplifier-side priority. However, other methods may be selected.
Of course, the number of channels per amplifier 20 is not limited to two.
The number of hierarchies of the group is not limited to 3, and the number of hierarchies may be different depending on the type of group.

In the above-described embodiment, the amplifier data in the project data and the amplifier data stored in the amplifier 20 are described as having the same format. However, these data formats may be different. In this case, when creating amplifier data to be included in the project data based on the amplifier data on the amplifier 20 side, or transmitting amplifier data from the PC 10 side and causing the amplifier device 20 to set the data, data is stored as necessary. Perform format conversion.
In addition, the configurations and modifications described above can be applied in appropriate combinations within a consistent range.

As is clear from the above description, according to the amplifier control device, amplifier system or program of the present invention as described above, even when a large number of amplifiers are centrally controlled from the amplifier control device, the degree of freedom in grouping the amplifiers High settings can be made with little effort.
Therefore, by applying this invention, an amplifier system with good operability can be provided.

It is a block diagram which shows the structure of the amplifier system containing PC which is embodiment of the amplifier control apparatus of this invention. 2 shows a hardware configuration of the PC shown in FIG. It is a figure which shows the hardware constitutions of the amplifier shown in FIG. It is a figure which shows the hardware constitutions of the amplifier management apparatus shown in FIG. It is a figure which shows the example of a display of a group setting screen.

It is a figure which shows the example of registration to the group of the device in a group setting screen. It is a figure which shows the continuation. It is a figure which shows the example of a display of a group ID setting screen. It is a figure which shows another example of a display of a group setting screen. It is a figure which shows the structure of the operation panel with which the amplifier shown in FIG. 1 is provided.

It is a figure which shows the example of a display of a group category selection screen. It is a figure which shows the example of a display of a group specific information setting screen. It is a figure which shows the example of a display of a device ID setting screen. It is a figure which shows the example of the project data which PC uses. It is a figure which shows the example of the amplifier data which an amplifier uses.

It is a flowchart of the process which CPU of PC performs at the time of amplifier control start. It is a figure which shows the example of a display of a synchronous mode selection screen. It is a flowchart of the amplifier side setting content reflection process performed by step S19 of FIG. It is a flowchart of the PC side setting content transmission process performed by step S20 of FIG. It is a figure for demonstrating the modification of the operation method of the group setting in a group setting screen.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... PC, 20, 26 ... Amplifier, 25 ... Amplifier management apparatus, 30 ... SP, 40 ... Mixer, 50 ... Microphone, 60 ... Network, 300 ... Group setting screen, 400 ... Group ID setting screen, 500 ... Operation panel, 600 ... Group category selection screen, 610 ... Group specific information setting screen

Claims (4)

An amplifier control device that communicates with a plurality of amplifier devices each storing group data indicating a group to which the own device belongs, and controls the plurality of amplifier devices,
Storage means for storing group management data defining a group to which each amplifier device to be controlled belongs;
An editing means for editing the group management data in accordance with a user operation;
In accordance with the user's operation, comprising a matching means for matching the group data stored in each amplifier device and the group management data stored in the storage means,
The alignment means;
When performing the matching, group data acquisition means for acquiring group data stored in the amplifier device from an amplifier device capable of communication from the own device;
A comparison means for comparing the group data acquired by the group information acquisition means with the group management data stored in the storage means;
In the case where even a part of the comparison result by the comparison means is inconsistent, the means for taking the matching by a matching method according to a user instruction,
The matching method includes at least
(A) The group data acquisition unit transmits group management data stored in the storage unit to each amplifier device from which group data has been acquired, and transmits data corresponding to the amplifier device to the amplifier device. Control device priority method to be set as device group data,
(B) An amplifier control device comprising: an amplifier device priority system that updates the group management data in accordance with the contents of the group data of each amplifier device acquired by the group data acquisition means.   An amplifier system comprising: the amplifier control device according to claim 1; and a plurality of amplifier devices that can communicate with the amplifier control device and store group data indicating groups to which the own device belongs. The amplifier system according to claim 2,
The group management data stored in the storage unit of the amplifier control device includes group IDs to which the amplifier devices to be controlled belong, and group name data corresponding to the IDs of the groups,
The group data stored by each amplifier device includes an ID of a group to which the amplifier device belongs,
The amplifier system, wherein the group control is centrally managed by the amplifier control device. A program for communicating with a plurality of amplifier devices each storing group data indicating a group to which the own machine belongs, and causing the computer to function as an amplifier control device for controlling the plurality of amplifier devices,
The computer,
Storage means for storing group management data defining a group to which each amplifier device to be controlled belongs;
An editing means for editing the group management data in accordance with a user operation;
According to the user's operation, function as a matching means for matching the group data stored in each amplifier device and the group management data stored in the storage means,
The alignment means;
When performing the matching, group data acquisition means for acquiring group data stored in the amplifier device from an amplifier device capable of communication from the own device;
A comparison means for comparing the group data acquired by the group information acquisition means with the group management data stored in the storage means;
In the case where even a part of the comparison result by the comparison means is inconsistent, the means for taking the matching by a matching method according to a user instruction,
The matching method includes at least
(A) The group data acquisition unit transmits group management data stored in the storage unit to each amplifier device from which group data has been acquired, and transmits data corresponding to the amplifier device to the amplifier device. Control device priority method to be set as device group data,
(B) A program including an amplifier device priority method for updating the group management data in accordance with the contents of the group data of each amplifier device acquired by the group data acquisition means.

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