CN103916742A - Control method for intelligent active sound box - Google Patents
Control method for intelligent active sound box Download PDFInfo
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- CN103916742A CN103916742A CN201210593643.2A CN201210593643A CN103916742A CN 103916742 A CN103916742 A CN 103916742A CN 201210593643 A CN201210593643 A CN 201210593643A CN 103916742 A CN103916742 A CN 103916742A
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Abstract
The invention relates to an active sound box control technology, and specifically discloses a control method for an intelligent active sound box. The method comprises the steps of initialization, sound box model editing, sound box control parameter (such as DSP data) editing and the like to realize remote control of dispersedly arranged entity sound boxes. According to the invention, one the basis of window type management, a chart type management method is employed, and the whole new idea of a sound box model is adopted for concentrated management of the dispersedly arranged active sound boxes on a computer platform, such that the problem caused by the lagging of software behind hardware development in a conventional active sound box technology is radically solved.
Description
Technical field
The present invention relates to active audio amplifier control technology, specifically a kind of control method of Intellectural active loudspeaker box.
Background technology
In the sound reinforcement system in the place such as arenas, hall, except program source equipment, sound console, power amplifier and audio amplifier, generally also to use signal handling equipment.Traditional signal handling equipment, for example there are compressor reducer, limiter, expander of laying particular emphasis on amplitude processing etc., lay particular emphasis on the equalizer, exciter, feedback suppressor, frequency divider of frequency processing etc., and such as delayer, the reverberator etc. processed of the time that lays particular emphasis on.
, there is realizing the digital audio processor of multi-signal processing capacity in the introducing of Digital Signal Processing (Digital Signal Processing) technology at any time.This is a kind of integrated equipment take digital signal processor (Digital Signal Processor) as core, and the function of the sound reinforcement system peripheral equipment except source of sound, sound console, power amplifier and audio amplifier (such as equalizer, delayer, phase shifter, compressor, frequency divider etc.) is integrated in an equipment.It can accurately carry out Audio Signal Processing, simplifies the connection of sound reinforcement system, has multi-channel analog input (for example two-way), multi-channel analog output (for example four tunnels, six tunnels, eight tunnels etc.), and numeral input and numeral output.Digital audio processor generally can carry out debugging control by the control software on function key or computer on machinery panel.
In recent years, along with Digital Signal Processing further developing in sound technique field, also there is the built-in active audio amplifier (can be described as active integrated baffle box) that is integrated with power amplifier and digital signal processor, be equivalent to original external power amplifier and digital audio processor to be integrated in audio amplifier.On audio amplifier, be also integrated with control interface (such as RJ45, RS485 and USB interface etc.).Audio amplifier is connected to after main control system, user can be debugged and proofread and correct and status monitoring active audio amplifier by the control software on main control system, for example revise all kinds of DSP parameters of digital signal processor, as EQ balance parameters, delay parameter, frequency division parameter, phase place are adjusted parameter etc., or monitor audio amplifier temperature, rotation speed of the fan, power amplifier, thereby realize, the active audio amplifier of dispersed placement is carried out to centralized control.
Because this class audio amplifier can greatly be simplified public address series of links structure, make user without expending a large amount of time and efforts for collocation and the connection of all kinds of audio amplifiers, power amplifier, digital audio processor (or other effect devices).Although design, project installation, debugging and monitoring etc. that on hardware view, this class active audio amplifier is professional sound system have brought revolutionary impact, but the control software also not designing for the feature of this class audio amplifier on software view, cannot give full play to the advantage of this class audio amplifier.The benefit of bringing at aspects such as sound system design, debugging correction and status monitorings.
Summary of the invention
The technical problem that the present invention solves is to provide a kind of control method that is applicable to active audio amplifier to carry out the Intellectural active loudspeaker box of Long-distance Control.
For solving the problems of the technologies described above, the technical solution used in the present invention is:
A kind of control method of Intellectural active loudspeaker box, the method is controlled entity audio amplifier by main control system, this entity audio amplifier comprises according to signal and flows to the signal input module, Digital audio process module, power amplifier module, the horn module that set gradually, and audio amplifier control module for above-mentioned one or more modules are controlled, described Digital audio process module is integrated with DAC, digital signal through described Digital audio process module processing exports described power amplifier module to after described DAC converts analog signal to, wherein:
Described audio amplifier also comprises noise reduction module, described Digital audio process module also comprises the first convergent-divergent list, described audio amplifier control module comprises noise reduction control module, transfers to described power amplifier module successively through the digital signal of described Digital audio process module processing through described the first unit for scaling, described DAC and described noise reduction module;
Described noise reduction control module is for detection of the digital signal level through described Digital audio process module processing, when the signal level detecting is during lower than pre-set threshold value, control described the first unit for scaling by preset multiple amplifying signal level, and control described noise reduction module simultaneously and dwindle signal level by this preset multiple; When the signal level detecting is during higher than threshold values, control described the first unit for scaling and described noise reduction module by the output of original signal level, this main control system comprises display module, data module and mixed-media network modules mixed-media, the method comprises the following steps:
Step 10: initialization, search for online audio amplifier;
Step 20: open or newly-built system model display system model window on the display interface of display module;
Step 30: start to edit current system model, if select editor's audio amplifier model, perform step 40; If select editor DSP data to perform step 70;
Step 40: create audio amplifier model if select, perform step 41; Delete audio amplifier model if select, perform step 42;
Step 41: create audio amplifier model, in data module, create audio amplifier model object, audio amplifier model object comprise audio amplifier model identification, audio amplifier model data and with audio amplifier DSP data, and in system model window, show corresponding audio amplifier model icon;
Step 42: delete audio amplifier model, delete the audio amplifier model object of this audio amplifier model in data module, and delete the audio amplifier model icon of this audio amplifier model in system model window;
Step 70: editor's DSP data, and being saved in corresponding audio amplifier model, if this audio amplifier model has matched and with it the entity audio amplifier of pairing set up network with main control system and be connected, by the DSP transfer of data after audio amplifier model modification to this entity audio amplifier.
The beneficial effect of technical scheme that compared with prior art, the present invention adopts is as follows:
Control software or the system of traditional digital audio processor all have more structure design based on entering of matrix form more.A digital audio processor can connect many power amplifiers simultaneously, every power amplifier adterminal audio amplifier transmission amplification audio signal after treatment again.Therefore the control system based on digital audio processor lays particular emphasis on configuration management, simple list formula view function can only be provided, in this class control system, there is no the concept of audio amplifier position, if therefore need to locate which position in the corresponding control system of certain entity audio amplifier in engineering site time, be to be generally aided with the modes such as device name to find along signalling channel, while therefore going to locate virtual audio amplifier position by entity audio amplifier, bother very much.Simultaneously, if need to know when certain virtual audio amplifier icon in control system is positioned at which position of engineering site, cannot learn from control system display interface intuitively, can only by control system to this virtual audio amplifier corresponding be that audio amplifier sends a pink noise, carry out according to this entity audio amplifier location.Therefore generally speaking, traditional control system based on digital audio processor is comparatively short of in the management of audio amplifier location and layout, and user is difficult to audio amplifier location to make the location of fast and reliable, cannot meet actual needs.This technology is used figure tabular form management method on the basis of window type management, and adopt this brand new ideas of audio amplifier model active audio amplifier to dispersed placement on computer platform to manage concentratedly, solve current active audio amplifier technology from root and lagged behind key obstacle due to hardware advances because of software.
Accompanying drawing explanation
Fig. 1 is the overall structure schematic diagram of embodiment bis-.
Fig. 2 is the audio amplifier control module schematic diagram of embodiment bis-.
Fig. 3 is the DAC principle of noise reduction figure of embodiment bis-.
Fig. 4 is the concrete schematic diagram of DAC noise reduction of embodiment bis-.
Fig. 5 is the noise reduction control module schematic diagram of embodiment bis-.
Fig. 6 is the overall structure figure of embodiment bis-.
Fig. 7 is the signal input module structure chart of embodiment bis-.
Fig. 8 is the analog signal compression amplitude limiter schematic diagram of embodiment bis-.
Fig. 9 is the compression amplitude limit unit schematic diagram of embodiment bis-.
Figure 10 is the sound effect processor schematic diagram (comprising three EQ equalizers) that the Digital audio process module of embodiment bis-comprises.
Figure 11 is the sound effect processor schematic diagram (comprising two EQ equalizers) that the Digital audio process module of embodiment bis-comprises.
Figure 12 is the main schematic flow sheet of embodiment mono-.
Figure 13 is the main schematic flow sheet of audio amplifier model editing of embodiment mono-.
Figure 14 is the main schematic flow sheet of array group model editing of embodiment mono-.
Figure 15 is the main schematic flow sheet of system group model editor of embodiment mono-.
embodiment
In the present invention, term " on ", D score, " left side ", " right side ", 'fornt', 'back', " top ", " end ", " interior ", " outward ", " in ", orientation or the position relationship of the indication such as " vertically ", " level ", " laterally ", " longitudinally " be based on orientation shown in the drawings or position relationship.These terms are mainly in order to describe better the present invention and embodiment, are not intended to limit indicated device, element or part and must have particular orientation, or construct and operate with particular orientation.
And above-mentioned part term is except can orientation or position relationship, being also used for representing other implications for representing, for example term " on " also may be used for representing in some cases certain relations of dependence or annexation.For those of ordinary skills, can understand as the case may be these terms concrete meaning in the present invention.
In addition, term " installation ", " setting ", " being provided with ", " connection ", " being connected " should be interpreted broadly.For example, can be to be fixedly connected with, removably connect, or monolithic construction; Can be mechanical connection, or electrical connection; Can be to be directly connected, or indirectly be connected by intermediary, or be connection inner between two devices, element or parts.For those of ordinary skills, can understand as the case may be above-mentioned term concrete meaning in the present invention.
In addition, term " first ", " second " etc. are mainly used for distinguishing different devices, element or part (concrete kind is identical with structure possibility also may be different), not for showing or imply relative importance and the quantity of indicated device, element or part.Except as otherwise noted, the implication of " multiple " is two or more.
Below in conjunction with embodiment and accompanying drawing, technical scheme of the present invention is further described.
embodiment mono-
As shown in Figure 12 to 15, the present embodiment be a kind of control method of Intellectural active loudspeaker box, the method is controlled entity audio amplifier by main control system, this entity audio amplifier comprises according to signal and flows to the signal input module, Digital audio process module, power amplifier module and the horn module that set gradually, this main control system comprises display module, data module and mixed-media network modules mixed-media, it is characterized in that comprising:
Step 10: initialization, search for online audio amplifier (online audio amplifier refers to the entity audio amplifier connecting with main control system);
Step 20: open or newly-built system model, display system model window on the display interface of display module, and carry out Auto-matching operation, synchronize thereby carry out data with the audio amplifier model of setting up pair relationhip in current system model in the online audio amplifier that search in above-mentioned steps 10 is obtained.In this step, if the online audio amplifier that obtains of search once with current system model in the pairing of audio amplifier model, by the DSP data Replica of this online audio amplifier to this audio amplifier model, maybe by the DSP data Replica in this audio amplifier model to this online audio amplifier.In this technique, data are synchronously the operations of instigating audio amplifier model identical with the DSP data of correspondent entity audio amplifier, specifically can by by the DSP data Replica in audio amplifier model in entity audio amplifier, or by the DSP data Replica in entity audio amplifier in audio amplifier model;
Step 30: start to edit current system model, if select editor's audio amplifier model, perform step 40; If select editor's array group model, perform step 50; If select editing system group model, perform step 60; If select editor DSP data to perform step 70;
Step 40: create audio amplifier model if select, perform step 41; Delete audio amplifier model if select, perform step 42; If select pairing audio amplifier model, perform step 43;
Step 41: create audio amplifier model, in data module, create audio amplifier model object, audio amplifier model object comprise audio amplifier model identification (be audio amplifier model object mark), audio amplifier model data and with audio amplifier DSP data (can be also audio amplifier control parameter, such as DSP data, power amplifier parameter, radiating fan rotation speed etc.), and in system model window, show corresponding audio amplifier model icon;
Step 42: delete audio amplifier model, delete the audio amplifier model object of this audio amplifier model in data module, and delete the audio amplifier model icon of this audio amplifier model in system model window;
Step 43: pairing audio amplifier model, by audio amplifier model and the pairing of entity audio amplifier, set up corresponding relation;
Step 50: create array group model if select, perform step 51; If delete array group model member, perform step 52; If revise array group model audio amplifier model member, perform step 53;
Step 51: create array group model, in data module, create array group model object, array group model object comprises array group model identification (being array group model object mark), audio amplifier model member's data and DSP data, and in system model window, shows corresponding audio amplifier model icon;
Step 52: delete array group model, delete the array group model object of array group model in data module, and delete the array group model icon of array group model in system model window;
Step 53: revise audio amplifier model member, if desired add audio amplifier model member by audio amplifier model interaction to be added to this array group model, if desired delete audio amplifier model member by audio amplifier model solution to be deleted except with the incidence relation of this array group model;
Step 60: if select establishment system group model, perform step 51; If deletion system group model member, performs step 52; If the system of modification group model audio amplifier model member, performs step 53;
Step 61: create system group model, in data module, create system group model object, system group model object comprises system group model mark (being system group model object identity), audio amplifier model member's data and DSP data, and in system model window, shows corresponding audio amplifier model icon;
Step 62: deletion system group model, the system group model object of deletion system group model in data module, and the system group model icon of deletion system group model in system model window;
Step 63: revise system group audio amplifier model member, if add audio amplifier model member by the audio amplifier model interaction of audio amplifier model to be added to this system group model, if desired delete audio amplifier model member by audio amplifier model solution to be deleted except with the incidence relation of this system group model;
Step 70: editor DSP data, and be saved in corresponding audio amplifier model and (be specifically saved in audio amplifier model object), if this audio amplifier model has matched and the entity audio amplifier of pairing has with it been set up network with main control system and is connected, by the DSP transfer of data after audio amplifier model modification to this entity audio amplifier.
In described step 20, window background adopts engineering site picture.This technology adopts system model window to adopt engineering site figure sheet mode, but can solve, one of current active audio amplifier control field is important but to be solved under the audio amplifier remote control manipulation and managerial efficiency that limits to cause due to passing experience and conventional thought, and problem not easy to identify is located by audio amplifier model layout.
The control software of current most of active audio amplifier is still continued to use the control model of the digital audio processor list formula of former external, if need the audio amplifier of control more, when sound system is more complicated, the control model of this list formula is easy to occur the problem of target control object deviation.So-called target control object deviation refers to, that for example entity audio amplifier first is corresponding is audio amplifier model A, but technical staff thinks that in the upper operation mistiming of main control system (or claiming to control platform) audio amplifier Model B is the diaphone box model of entity audio amplifier first, thereby the DSP data to audio amplifier model are edited, the entity audio amplifier first that the entity audio amplifier of DSP data is revised in now actual quilt control and non-technical personnel is contemplated or estimate, thus there is target control object deviation.
Original this deviation is avoidable, also adopted in the prior art multiple technologies means to guarantee which entity audio amplifier of the audio amplifier model corresponding engineering site of technical staff in can discrimination system model, but these means are the visual RM of right and wrong mostly, in duration anxiety, the occasion that debugging task is heavy, these distinguish that means still can expend the more time and efforts of technical staff, and efficiency is not high and easily make mistakes.
The background of system model window can be arranged to engineering site picture, technical staff can be placed on the audio amplifier icon in system model on the installation site of correspondent entity audio amplifier in engineering site picture, audio amplifier icon in system model is distributed and more approach the deployment scenarios of entity audio amplifier, technical staff can be associated fast, accurately identify the entity audio amplifier of which position in the corresponding engineering site of each audio amplifier icon (audio amplifier model), shorten the time of finding the audio amplifier model corresponding with entity audio amplifier, not only can accelerate the efficiency of sound box system debugging control, can also improve the accuracy of entity audio amplifier control, effectively avoid because of the entity audio amplifier target control object offset issue due to human negligence.
In described step 20, described Auto-matching operation comprises: main control system obtains the current sequence number that is connected entity audio amplifier with main control system by mixed-media network modules mixed-media search;
Judge in the audio amplifier model of current system model whether have the audio amplifier model that comprises this sequence number, if without completing automatic matching operation; If have, carry out DSP data checks and data simultaneous operation;
Check that whether the DSP data of this audio amplifier model are identical with the DSP data of this entity audio amplifier, if the identical automatic matching that completes of both DSP data operates, if both DSP data are not identical, executing data simultaneous operation, and by user select be by the DSP data Replica of audio amplifier model to entity audio amplifier or by the DSP data Replica of entity audio amplifier to audio amplifier model.
In described step 41, can create in the following manner audio amplifier model (creating off-line audio amplifier model):
Display device storehouse on the display interface of display module, equipment library can in comprise the audio amplifier model icon corresponding with default model audio amplifier (can show with list or icon form), from equipment library, select audio amplifier model icon;
Selected audio amplifier model icon is dragged and dropped in system model window, and creates the audio amplifier model object (specifically audio amplifier model picture corresponding audio amplifier model data be saved in audio amplifier model object) corresponding with this audio amplifier model icon in data module.
In described step 41, can also create in the following manner audio amplifier model (creating online audio amplifier model):
On the display interface of display module, show online equipment library, in online equipment library, comprise online audio amplifier mark or icon, each online audio amplifier mark or icon represent that one is set up with main control system the entity audio amplifier that network is connected, and selects online audio amplifier icon from online equipment library;
Selected online audio amplifier icon is dragged and dropped in system model window, and in data module, creates audio amplifier model object;
The sequence number of the corresponding entity audio amplifier of this online audio amplifier icon is saved in this audio amplifier model object.
For the audio amplifier model of carrying out matching operation, connect with entity audio amplifier and the main control system of this audio amplifier model pairing if current, defining this audio amplifier model is online audio amplifier model.For online audio amplifier model, if user revises the DSP data (icon of clicking this online audio amplifier model can enter the DSP data modification page) of this online audio amplifier model, synchronous executing data upgrades operation, send in pairing entity audio amplifier by the mixed-media network modules mixed-media of main control system by amended DSP data, the DSP data that are equivalent to revise come into force to pairing entity audio amplifier immediately, make user to carry out real-time debug correction or adjustment to sound system.
With online audio amplifier model accordingly, for the audio amplifier model of not yet carrying out matching operation, though or once carried out matching operation, the entity audio amplifier of pairing is current with it is not connected with main control system, is defined as off-line audio amplifier model.For the DSP data of off-line audio amplifier model modification, cannot instantaneous transmission to corresponding entity audio amplifier, but can after reloading the success of initialization Auto-matching, by the data method of synchronization, amended DSP data be sent in corresponding entity audio amplifier by system next time.
This technology is by manually matching and automatic matching mechanism, realize " off-line " DSP data editing function, make engineers and technicians without being bundled in engineering site, can debug system in mode more flexibly, and provide technical infrastructural support for getting through sound system design, enforcement and debugging.
In addition, consider aims of systems user group and sound field forecast analysis software object user group's difference, audio amplifier control system generally lays particular emphasis on auxiliary management, and system can not design too complicatedly, simple, directly perceived, easily operation is the major criterion of this class control system.Therefore audio amplifier control system generally can integrated virtual audio analyser function, in the time that needs are debugged sound system, can only be undertaken by the audio analyzer of entity.If debugging, tester leave engineering site, system debug work cannot be proceeded.
Secondly, sound system design is carried out system modelling harmony field prediction with sound field forecast analysis software conventionally, this class software is generally accompanied with virtual audio analyzer function, can predict by insert the mode of virtual speaker in three-dimensional or two-position system model the sound effect of the specified point of sound reinforcement system.The analytical effect of its acquisition similar with the measurement microphone that is connected to entity audio analyzer is placed into the assigned address of engineering site after measure by entity audio analyzer the effect obtaining.Therefore in the time carrying out sound system design, (mainly refer to sound equipment layout), can adjust distribution of sound box and concrete position design by this virtual audio analyser function, thereby improve accuracy and the science that sound system designs.But due to the actual audio amplifier DSP data of engineering site may through can through artificial adjust or when dispatching from the factory individual data items there are differences, therefore forecast analysis software cannot obtain these data, thereby also cannot carry out sunykatuib analysis by self subsidiary virtual audio analyser function.
Generally speaking, audio amplifier control software cannot carry out the sound system debugging of " off-line " because a variety of causes does not possess virtual audio analyser function, and though sound field hypothesis analysis system possesses virtual audio analyzer, but but cannot carry out simulative debugging owing to cannot obtaining the audio amplifier DSP data of engineering site reality, moreover be can simulative debugging, the audio amplifier DSP data after debugging also cannot be given to audio amplifier control system and proceed debugging operations in kind.Therefore get through this two systems, can hold for the sound system debugging in sound system design in early stage and later stage provides more branched, thus the flexibility and the science that improve sound system design, debug, and increase work efficiency.
Described step 43 can realize pairing audio amplifier model manipulation by following steps:
(1) select an audio amplifier model and an entity audio amplifier connecting with main control system;
(2) judge that whether both audio amplifier model is identical, the sequence number of this entity audio amplifier copied in audio amplifier model if identical and select whether executing data simultaneous operation; Abandon matching operation if not identical;
(3) data simultaneous operation: select the DSP data Replica of audio amplifier model in this entity audio amplifier, or select the DSP data Replica of entity audio amplifier (to copy in the audio amplifier model object of this audio amplifier model and preserve) in this audio amplifier model.
Further, described step 43 can also realize pairing audio amplifier model manipulation by following steps:
(1) on the display interface of display module, show online equipment library, comprise online audio amplifier mark or icon in online equipment library, each online audio amplifier mark or icon represent that one is set up with main control system the entity audio amplifier that network is connected;
(2) the selected selected audio amplifier illustraton of model that online audio amplifier identifies or icon is dragged and dropped in system model is put on, automatically triggered and judge whether to carry out matching operation with this;
(3) if the audio amplifier model of audio amplifier model is consistent with the audio amplifier model of online audio amplifier mark or icon institute correspondent entity audio amplifier, can carry out matching operation (now whether carrying out matching operation is selected by user); If audio amplifier model is inconsistent, point out user can not carry out matching operation;
(4), if carry out matching operation, the sequence number of online audio amplifier mark or the corresponding entity audio amplifier of icon is copied in the audio amplifier model object of this audio amplifier model, thereby make to set up pair relationhip between audio amplifier entity and audio amplifier model; If execution matching operation, can select executing data simultaneous operation;
(5) data simultaneous operation, by selecting, the DSP data of audio amplifier model (being the DSP data that comprise in audio amplifier model object) are all copied to and matched with it in entity audio amplifier, or select the DSP data in this entity audio amplifier all to copy in the audio amplifier model object of the audio amplifier model matching with it.
In described step 51, can create array group model by following step:
Display device storehouse on the display interface of display module, equipment library can in comprise blank array group model icon, select blank array group model icon from equipment library;
This blank array group model icon is dragged and dropped in system model window;
In data module, create the audio amplifier model object corresponding with this blank array group model icon.
In described step 51, can create array group model by following step:
Display device storehouse on the display interface of display module, equipment library can in comprise pre-built array group model icon, select pre-built array group model icon from equipment library;
This pre-built array group model icon is dragged and dropped in system model window;
In data module, create the audio amplifier model object corresponding with this pre-built array group model icon;
Create the predefined audio amplifier model member audio amplifier model that this pre-built array group icon is corresponding;
By the audio amplifier model interaction of above-mentioned establishment to this pre-built array group (mark of these audio amplifier models is saved in array group model object).
In described step 53, if adding audio amplifier model member is saved in the audio amplifier model identification of audio amplifier model to be added in array group model object, thereby set up incidence relation (also can be described as the relations of distribution), if delete audio amplifier model member, the audio amplifier model identification of audio amplifier model to be deleted is deleted from array group model object, thus disassociation relation.
In described step 61, can create system group model by following step:
Display device storehouse on the display interface of display module, equipment library can in comprise blank system group model icon, select blank system group model icon from equipment library;
This blank system group model icon is dragged and dropped in system model window;
In data module, create the audio amplifier model object corresponding with this blank system group model icon.
In described step 61, can create system group model by following step:
Display device storehouse on the display interface of display module, equipment library can in comprise preset system group model icon, select preset system group model icon from equipment library;
This preset system group model icon is dragged and dropped in system model window;
In data module, create the audio amplifier model object corresponding with this preset system group model icon;
Create the predefined audio amplifier model member audio amplifier model that this preset system group icon is corresponding;
By the audio amplifier model interaction of above-mentioned establishment to this preset system group (mark of these audio amplifier models is saved in system group model object).
In described step 63, if adding audio amplifier model member is saved in the audio amplifier model identification of audio amplifier model to be added in system group model object, thereby set up incidence relation (also can be described as the relations of distribution), if delete audio amplifier model member, the audio amplifier model identification of audio amplifier model to be deleted is deleted from system group model object, thus disassociation relation.
Described audio amplifier DSP data comprise input processing data and output deal with data, and wherein input processing data comprise three layers of DSP data, and ground floor is audio amplifier layer DSP data, and the second layer is array layer DSP data, and the 3rd layer is system layer DSP data.
The entity audio amplifier DSP that audio amplifier model is corresponding processes and comprises input processing and multichannel output processing (for frequency division audio amplifier), input processing comprises one or more audio processing, in input processing, every kind of audio processing is provided with three, the parameter of each audio processing of one species both can be the same or different, although therefore each audio processing in input processing is connected, but also can regard three layers of DSP as processes, the quantity that every layer of DSP processes the audio treatment types comprising is identical, when corresponding therewith, also can be considered as three layers of DSP data for the DSP data of controlling these three layers of DSP processing.Wherein one deck DSP data are audio amplifier layer DSP data, these data are only for the corresponding entity audio amplifier of affiliated audio amplifier model sound effect, another layer of DSP data are array layer DSP data, these data to whole audio amplifier model members of array group model under these data separately corresponding entity audio amplifier come into force, also have one deck DSP data are system layer DSP data, these data to whole audio amplifier model members of system group model under these data separately corresponding entity audio amplifier come into force.
That is to say, if revise the audio amplifier layer DSP data of certain audio amplifier model, this modification only comes into force to the corresponding entity audio amplifier of this audio amplifier model, if but revise the array layer DSP data of this audio amplifier model, the DSP data of the array group model under this audio amplifier model also can synchronously be revised, and this modification can be synchronized to whole audio amplifier model members of this array group model, and whole audio amplifier model members' of this array group model array layer DSP parameter has all been carried out identical modification.
The entity audio amplifier of the present embodiment comprise signal input module, Digital audio process module (=, power amplifier module and horn module, wherein Digital audio process module comprises input processing module and multiple output processing module;
Input processing module comprises multiple sound effect processors of series connection, each sound effect processor is for carrying out corresponding kind signal processing operations according to the processing parameter setting to audio signal, wherein an initial sound effect processor is connected with signal input module, to receive the audio signal from signal input module, a last sound effect processor is connected with each output processing module, will be divided into multichannel output audio signal through its audio signal after treatment and transfer to a corresponding output processing module;
Each output processing module comprises multiple sound effect processors of series connection, and an initial sound effect processor is filter, this filter is used for receiving the corresponding road output audio signal of this output processing module, and Dui Gai mono-road output audio signal carries out filtering processing, thereby obtain the signal of default frequency range.
Every kind of sound effect processor in entity audio amplifier input processing module, can all arrange three, and the DSP data that now entity audio amplifier also comprises are also three layers, completely corresponding with the audio amplifier model DSP data of this entity audio amplifier pairing with on main control system; Also sound effect processor that can Partial Species arranges three, the sound effect processor setting of Partial Species is less than three, for example one, now the DSP data of entity audio amplifier input processing module reality can not be corresponding one by one with its three layers of DSP data of matching the processing of audio amplifier mode input, is equivalent to be provided with three layers of virtual input processing parameter on main control system.Now, for only have the sound effect processor of in entity audio amplifier input processing module, user couple carries out after DSP retouching operation with this pairing audio amplifier model, main control system needs first will in audio amplifier model, to become one/mono-group DSP parameter with the corresponding three layers of DSP parameter superposition calculation of this kind sound effect processor, processes operation for this sound effect processor executive signal.
In described step 70, whole DSP data (comprising three layers of DSP data of input and output deal with data) of audio amplifier model both can be edited, the DSP data that also can edit array group model, the DSP data of all right direct editing system group model.If wherein revise audio amplifier layer DSP data, only can affect the affiliated audio amplifier model of these data and the entity audio amplifier with this audio amplifier model pairing, if revise array layer DSP data, no matter be to modify from audio amplifier model angle, or array group model angle is modified, capital to this array layer DSP data whole audio amplifier models of corresponding array group model come into force, system layer DSP data modification similarly, is all the effect of " a key a slice ".
embodiment bis-
The difference of the present embodiment and embodiment mono-is: the entity audio amplifier of the present embodiment comprises according to signal and flows to the signal input module 10 setting gradually, Digital audio process module 20, power amplifier module 30, horn module 40, and audio amplifier control module 90 for above-mentioned one or more modules are controlled, described Digital audio process module 20 is integrated with DAC 29, (the various audio processing of processing through described Digital audio process module 20, as time delay, EQ equilibrium etc.) digital signal exports (can directly or indirectly export) to described power amplifier module 30 after described DAC 29 converts analog signal to, this analog signal is reduced into sound by described horn module 40 after described power amplifier module 30 amplifies processing.
Described audio amplifier also comprises noise reduction module 52 ', described Digital audio process module 20 also comprises the first unit for scaling 28, described audio amplifier control module 90 comprises noise reduction control module 95, and the digital signal of processing through described Digital audio process module 20 transfers to described power amplifier module 30 through described the first unit for scaling 28, described DAC 29 and described noise reduction module 52 ' successively.
Described noise reduction control module 95 is for detection of the digital signal level of processing through described Digital audio process module 20, when the signal level detecting is during lower than pre-set threshold value, control described the first unit for scaling 28 by preset multiple amplifying signal level, and control described noise reduction module 52 ' simultaneously and dwindle signal level by this preset multiple; When the signal level detecting is during higher than threshold values, control described the first unit for scaling 28 and described noise reduction module 52 ' and export by original signal level.
That is to say, when the signal level of input audio amplifier is when too small, noise reduction control module 95 starts noise reduction adjustment, control the multiple synchronous backward convergent-divergent level that the first unit for scaling 28 is identical with noise reduction module 52 ', suppose that signal level has been amplified 10 times by the first unit for scaling 28, noise reduction module 52 ' can correspondingly be dwindled signal 10 times.When incoming signal level is in tolerance interval, when background noise is not given prominence to or do not affect audio amplifier sound field effect, noise reduction control module 95 is controlled the first unit for scaling 28 and noise reduction module 52 ' maintains original signal level, does not change the level of signal.If signal level equals threshold values just, both can be set as the adjustment of enabling signal noise reduction, also can be set as not enabling signal level and adjust and export by former level.
Described noise reduction control module 95 comprises: signal level detection module 951, the digital signal level of processing for detection of Digital audio process module 20; Noise reduction Executive Module 952, be used for judging that described signal level detection module 951 detects that whether level is lower than pre-set threshold value, if control described the first unit for scaling 28 by preset multiple amplifying signal level lower than threshold values, and control described noise reduction module 52 ' and dwindle signal level by this preset multiple simultaneously; If control described the first unit for scaling 28 and described noise reduction module 52 ' is exported by original signal level higher than threshold values.
Described the first unit for scaling 28 comprises the first switch unit 281, put-through channel and convergent-divergent passage, described put-through channel and described convergent-divergent passage are connected in parallel in described the first switch unit 281 and described DAC 29, and described convergent-divergent passage is provided with the first level unit for scaling 282 for signal level being amplified by described preset multiple, do not change through the signal level of put-through channel transmission.
Described the first switch unit 281 is connected with described noise reduction control module 95, for receiving the digital signal of processing through described Digital audio process module 20, and select by described put-through channel or described convergent-divergent passage extremely described DAC 29 of this digital data transmission according to the control signal of described noise reduction control module 95.The signal level detecting when noise reduction control module 95 during higher than pre-set threshold value, will be sent to the first switch unit 281 control signal of selecting put-through channel transmission of digital signals, and the signal level of output is constant; The signal level detecting when noise reduction control module 95 is during lower than pre-set threshold value, to send to the first switch unit 281 control signal of selecting convergent-divergent channel transfer digital signal, signal carries out according to preset multiple through the first level unit for scaling 282 after level amplifies processing exporting.
Described noise reduction module 52 ' comprises the second switch unit 521 ' put-through channel (not label) and convergent-divergent passage (not label), described put-through channel and described convergent-divergent passage are connected in parallel in described the second switch unit 521 ' and described power amplifier module 30, described convergent-divergent passage is provided with the second electrical level unit for scaling 522 ' for signal level being dwindled by described preset multiple, does not change through the signal level of put-through channel transmission.
Described the second switch unit 521 ' is connected with described noise reduction control module 95, for receiving the analog signal that described DAC 29 exports, and select by described put-through channel or described convergent-divergent passage extremely described power amplifier module 30 of this analog signal transmission according to the control signal of described noise reduction control module 95.The signal level detecting when noise reduction control module 95 during higher than pre-set threshold value, will be sent the control signal of selecting put-through channel transmission of analogue signal to the second switch unit 521 ', and the signal level of output is constant; The signal level detecting when noise reduction control module 95 is during lower than pre-set threshold value, to send the control signal of selecting convergent-divergent channel transfer analog signal to the second switch unit 521 ', analog signal carries out according to preset multiple through second electrical level unit for scaling 522 ' after level dwindles processing exporting.Second electrical level unit for scaling 522 ' can adopt conventional discharge circuit or resistor voltage divider circuit to realize, especially while adopting resistor voltage divider circuit, for the level and the impedance that make the 522 ' output of second electrical level unit for scaling match with follow-up power amplifier module 30 better, can set up buffer cell at second electrical level unit for scaling 522 ' output, the analog signal of dwindling output through second electrical level unit for scaling 522 ' is transferred to power amplifier module 30 after buffer cell adjustment again.
As shown in Figure 5, described noise reduction control module comprises noise reduction state feedback module 953, described noise reduction state feedback module 953 is less than pre-set threshold value for the signal level detecting when described noise reduction control module 95 or in the time that described noise reduction control module 95 is controlled described the first switch unit 281 and selected described convergent-divergent channel transfer digital signal, control the status lamp 61(arranging on described audio amplifier and see Fig. 6) show volume cross mere suggestion (as flicker or word show) and/or by this status information feedback to as described in the main control system that connects of audio amplifier (or be called control platform), thereby point out input volume too small to user.
As Fig. 6, shown in 7, described signal input module 10 comprises the analog input interface 11 for receiving simulated audio signal, for receiving the AES input interface 12 of AES digital audio and video signals, be used for the RJ45 input interface 13 of the digital audio and video signals (digital audio and video signals of AES or extended formatting) that receives Internet Transmission, analog signal compression amplitude limiter 15(is also referred to as compressor), digital audio transmitter 16(Digital Audio Transmitter), wherein, described analog input interface 11 is connected with described Digital audio process module 20 by described analog signal compression amplitude limiter 15, described AES input interface 12, RJ45 input interface 13 is connected with described Digital audio process module 20 by described digital audio transmitter 16 respectively, and described audio amplifier control module 90 is connected with described RJ45 input interface 13.
Described audio amplifier control module 90 is connected with external control main frame by described RJ45 input interface 13, main control system is controlled audio amplifier control module 90, audio amplifier control module 90 is controlled each controlled module or the unit of audio amplifier according to the control signal of main control system again, the setting of audio processing parameters as various in the DSP of Digital audio process module 20, the setting of power amplifier parameter, signal input module 10 input channel Route Selection etc., to realize the Remote management of audio amplifier.Audio amplifier control module 90 can also, by audio amplifier state information, as noise reduction state, compression amplitude limit state, power amplifier state, temperature, radiator fan 64 rotating speeds etc., feed back to control main control system simultaneously, to realize, the audio amplifier of dispersed placement is concentrated to monitoring.The digital audio and video signals of inputting audio amplifier through AES input interface, RJ45 input interface 13 converts the form that can directly directly process for dsp processor to by digital audio transmitter.The simulated audio signal of input audio amplifier need to convert digital signal to by ADC, and ADC can be arranged in signal input module 10, as is arranged on the rear end of analog compression amplitude limit, also can be integrated in Digital audio process module 20.In addition, signal input module 10 can also be set up RJ45 output interface 14, to carry out cascade between audio amplifier, facilitates user flexibility to build audio amplifier interconnection network.Consider that the built-in power amplifier module 30 of active audio amplifier needs heat radiation, audio amplifier inside is generally provided with radiator fan 64 and the temperature sensor for detection of power amplifier and/or audio amplifier internal temperature, for the information such as state of temperature and radiator fan 64 rotating speeds are fed back to main control system, audio amplifier control module 90 can directly be connected and obtain data with temperature sensor, radiator fan 64, or indirectly obtains radiator fan 64 rotary speed informations by devices such as Mega8 62.
As Fig. 2, shown in Fig. 6 and Fig. 7, described audio amplifier control module 90 also comprises the first control module 91 for controlling described signal input module 10, described the first control module 91(is connected with described analog signal compression amplitude limiter and described digital audio transmitter) comprise and compress amplitude limit state feedback module (not shown), described compression amplitude limit state feedback module is in the time that described analog signal compression amplitude limiter starts compression or amplitude limit function, control the status lamp 61 arranging on described audio amplifier show volume cross mere suggestion (as flicker or word show) and/or by this status information feedback to as described in the main control system that connects of audio amplifier, thereby point out input volume excessive to user.
As Fig. 8, shown in Fig. 9, described analog signal compression amplitude limiter comprises that flowing to by signal the prime balance connecting successively turns non-equilibrium input unit 151, compression amplitude limit unit 152 and the non-equilibrium balance output unit 153 that turns, described compression amplitude limit unit 152 comprises: be connected in described prime balance and turn non-equilibrium input unit 152 and the described non-equilibrium anti-phase operation amplifier module that turns balance output unit 153, and press signal flow to successively connect active half-wave rectification block, logarithm operation amplification module, differential amplification module, the anti-phase computing buffer module of equal proportion and switch adjustment pipe, wherein said active half-wave rectification block is connected with described anti-phase operation amplifier module output, the anti-phase computing buffer module of described equal proportion is connected with described anti-phase operation amplifier module, described switch adjustment pipe is connected with described anti-phase operation amplifier module, in addition, the described non-equilibrium balance output unit that turns carries out non-equilibrium turn balance and anti-phase processing to the received signal.
As shown in Figure 10,11, described Digital audio process module 20 comprises input processing module and multiple output processing module.
Described input processing module comprises multiple sound effect processors of series connection, each sound effect processor is for carrying out corresponding kind signal processing operations according to the processing parameter setting to audio signal, wherein an initial sound effect processor receives the audio signal from described signal input module 10, and a last sound effect processor audio signal after treatment is divided into multichannel output audio signal and is transferred to a corresponding described output processing module;
Each described output processing module comprises multiple sound effect processors of series connection, and an initial sound effect processor is filter, this filter is for receiving Yi corresponding to described output processing module road output audio signal, and Dui Gai mono-road output audio signal carries out filtering processing, thereby obtain the audio signal of default frequency range, a last sound effect processor audio signal transmission after treatment is to described the first unit for scaling 28.
Described input processing module comprises one or more sound effect processors, and have at least input processing module described in a kind of sound effect processor to include the sound effect processor of at least two these kinds, one of them is the audio amplifier layer sound effect processor of setting for audio amplifier self, also have one to be the array layer sound effect processor of setting for each audio amplifier member unification of array group under audio amplifier, each array group comprises multiple audio amplifiers, and the parameter of corresponding array layer sound effect processor that belongs to the audio amplifier of same array group is identical.In addition, can also be provided with the system layer sound effect processor that belongs to this kind of sound effect processor type for input processing module described in any sound effect processor, system layer sound effect processor is the unified system group layer sound effect processor of setting of each audio amplifier member for system group under described audio amplifier.Each system group comprises one or more audio amplifiers, and/or comprises one or more array group, and the parameter of corresponding system layer sound effect processor that belongs to the audio amplifier of same system group is identical.General an of speaker system need arrange a system group.Each sound effect processor series connection that described input processing module comprises.
As an example of EQ equilibrium example, input processing module being comprised to two or three these kind sound effect processors describes.
(1) two EQ equilibrium.As shown in figure 11, input processing module comprises two EQ equalizers, one is audio amplifier layer EQ equalizer, another is array layer EQ equalizer, this audio amplifier layer EQ equalizer carries out EQ equilibrium treatment for whose fixed EQ processing parameter of described audio amplifier self to audio signal for basis, and this array layer EQ equalizer is for carrying out EQ equilibrium treatment according to the unified EQ processing parameter of setting of each audio amplifier member for array group described in affiliated audio amplifier to audio signal.
(2) three EQ equilibriums.As shown in figure 10, input processing module comprises three EQ equalizers, one is audio amplifier layer EQ equalizer, one is array layer EQ equalizer, also having one is system layer EQ equalizer, this audio amplifier layer EQ equalizer carries out EQ equilibrium treatment for whose fixed EQ processing parameter of described audio amplifier self to audio signal for basis, this array layer EQ equalizer is for carrying out EQ equilibrium treatment according to the EQ processing parameter of unifying for each audio amplifier member of array group described in affiliated audio amplifier to set to audio signal, this system layer EQ equalizer is for carrying out EQ equilibrium treatment according to the EQ processing parameter of unifying for each audio amplifier member of system group under described audio amplifier to set to audio signal.Input processing module in accompanying drawing 11 comprises input silencer, input gain device, input time delay device, input polarity controller, input air attenuation equalizer, audio amplifier layer EQ equalizer, array layer EQ equalizer and the system layer EQ equalizer of series connection successively.
Each described input processing module comprises one or more following sound effect processors: input silencer, input gain device, input time delay device, input polarity controller, input air attenuation equalizer, EQ equalizer, input compression amplitude limiter, wherein: this input silencer is for carrying out silence switch processing to audio signal; This input gain device is for audio processing that audio signal is gained; This input time delay device is for carrying out delay process to audio signal; This input polarity controller is for carrying out Polarity Control to audio signal; This input air attenuation equalizer is for carrying out attenuation of air compensation deals to audio signal; This input EQ equalizer is for carrying out the balanced audio processing of EQ to audio signal; This input compression amplitude limiter is for compressing amplitude limiting processing to audio signal.
Each described output processing module comprises filter and one or more following sound effect processors: output mute device, output gain device, output delayer, output polarity controller, delivery air attenuation equalizer, output EQ equalizer, output squeezing amplitude limiter, wherein:
This filter is used for receiving the corresponding road output audio signal of output processing module described in this, and Dui Gai mono-road output audio signal carries out filtering processing, thus obtain with output processing module described in this sound frequency range that matches of corresponding power amplifier unit;
This input silencer carries out silence switch processing for output processing module described in this is received to Yi road output audio signal;
This input gain device is for receiving the audio processing that gains of Yi road output audio signal to output processing module described in this;
This input time delay device carries out delay process for output processing module described in this is received to Yi road output audio signal;
This input polarity controller carries out Polarity Control for output processing module described in this is received to Yi road output audio signal;
This input air attenuation equalizer carries out attenuation of air compensation deals for output processing module described in this is received to Yi road output audio signal;
These input and output EQ equalizer carries out the balanced audio processing of EQ for output processing module described in this being received to Yi road output audio signal;
This input compression amplitude limiter compresses amplitude limiting processing for output processing module described in this is received to Yi road output audio signal; Each audio processing module series connection of described output processing module, comes a last sound effect processor and is connected with described power amplifier module 30.When output audio signal is after last sound effect processor of output processing module is processed, this output audio signal directly or indirectly transfers to a power amplifier unit corresponding in power amplifier module 30, output audio signal transfers to loudspeaker unit corresponding in horn module 40 after power amplifier unit amplifies processing again, is reduced into sound finally by loudspeaker unit.
Described Digital audio process module 20 comprises signal routing module, and for receiving analog signal input channel and the digital signal input channel from described signal input module 10 signals, described analog signal input channel, described digital signal input channel is connected with described signal routing module respectively, and in described digital signal input channel, be also provided with the sampling rate converter for digital signal sampling rate being mated to conversion, selected Yi road input signal is transferred to the described initial sound effect processor in described input processing module by described signal routing module.
Described audio amplifier control module 90 comprises the second control module 92 for controlling described Digital audio process module 20 and for controlling the 4th control module 94 of described power amplifier module 30.The second control module 92 is set or upgrades each sound effect processor parameter of Digital audio process module 20 according to the control signal of the main control system being connected with audio amplifier, simultaneously can also be by the parameter feedback of Digital audio process module 20 each sound effect processors to main control system.
Claims (8)
1. the control method of an Intellectural active loudspeaker box, the method is controlled the entity audio amplifier in active integrated baffle box system by main control system, it is characterized in that: this entity audio amplifier comprises according to signal and flows to the signal input module setting gradually, Digital audio process module, power amplifier module, horn module, and audio amplifier control module for above-mentioned one or more modules are controlled, described Digital audio process module is integrated with DAC, digital signal through described Digital audio process module processing exports described power amplifier module to after described DAC converts analog signal to, wherein:
Described audio amplifier also comprises noise reduction module, described Digital audio process module also comprises the first convergent-divergent list, described audio amplifier control module comprises noise reduction control module, transfers to described power amplifier module successively through the digital signal of described Digital audio process module processing through described the first unit for scaling, described DAC and described noise reduction module;
Described noise reduction control module is for detection of the digital signal level through described Digital audio process module processing, when the signal level detecting is during lower than pre-set threshold value, control described the first unit for scaling by preset multiple amplifying signal level, and control described noise reduction module simultaneously and dwindle signal level by this preset multiple; When the signal level detecting is during higher than threshold values, control described the first unit for scaling and described noise reduction module by the output of original signal level, this main control system comprises display module, data module and mixed-media network modules mixed-media, the method comprises:
Step 10: initialization, search for online audio amplifier;
Step 20: open or newly-built system model display system model window on the display interface of display module;
Step 30: start to edit current system model, if select editor's audio amplifier model, perform step 40; If select editor's array group model, perform step 50; If select editor DSP data to perform step 70;
Step 40: create audio amplifier model if select, perform step 41; Delete audio amplifier model if select, perform step 42; If select pairing audio amplifier model, perform step 43;
Step 41: create audio amplifier model, in data module, create audio amplifier model object, audio amplifier model object comprise audio amplifier model identification, audio amplifier model data and with audio amplifier DSP data, and in system model window, show corresponding audio amplifier model icon;
Step 42: delete audio amplifier model, delete the audio amplifier model object of this audio amplifier model in data module, and delete the audio amplifier model icon of this audio amplifier model in system model window;
Step 43: pairing audio amplifier model, by audio amplifier model and the pairing of entity audio amplifier, set up corresponding relation;
Step 50: create array group model if select, perform step 51; If delete array group model member, perform step 52; If revise array group model audio amplifier model member, perform step 53;
Step 51: create array group model, create array group model object in data module, array group model object comprises array group model identification, audio amplifier model member's data and DSP data, and shows corresponding audio amplifier model icon in system model window;
Step 52: delete array group model, delete the array group model object of array group model in data module, and delete the array group model icon of array group model in system model window;
Step 53: revise audio amplifier model member, if desired add audio amplifier model member by audio amplifier model interaction to be added to this array group model, if desired delete audio amplifier model member by audio amplifier model solution to be deleted except with the incidence relation of this array group model;
Step 70: editor's DSP data, and being saved in corresponding audio amplifier model, if this audio amplifier model has matched and with it the entity audio amplifier of pairing set up network with main control system and be connected, by the DSP transfer of data after audio amplifier model modification to this entity audio amplifier.
2. the control method of Intellectural active loudspeaker box according to claim 1, is characterized in that: in described step 20, window background adopts engineering site picture.
3. the control method of Intellectural active loudspeaker box according to claim 1, is characterized in that: in described step 41, can create in the following manner audio amplifier model:
Display device storehouse on the display interface of display module, equipment library can in comprise the audio amplifier model icon corresponding with default model audio amplifier, from equipment library, select audio amplifier model icon;
Selected audio amplifier model icon is dragged and dropped in system model window, and creates the audio amplifier model object corresponding with this audio amplifier model icon in data module.
4. the control method of Intellectural active loudspeaker box according to claim 1, is characterized in that: in described step 41, can create in the following manner audio amplifier model:
On the display interface of display module, show online equipment library, in online equipment library, comprise online audio amplifier mark or icon, each online audio amplifier mark or icon represent that one is set up with main control system the entity audio amplifier that network is connected, and selects online audio amplifier icon from online equipment library;
Selected online audio amplifier icon is dragged and dropped in system model window, and in data module, creates audio amplifier model object;
The sequence number of the corresponding entity audio amplifier of this online audio amplifier icon is saved in this audio amplifier model object.
5. the control method of Intellectural active loudspeaker box according to claim 1, is characterized in that: described step 43 comprises the following steps and realizes pairing audio amplifier model manipulation:
Select an audio amplifier model and an entity audio amplifier connecting with main control system;
Whether the audio amplifier model that judges both is identical, the sequence number of this entity audio amplifier copied in audio amplifier model and select whether executing data simultaneous operation if identical; Abandon matching operation if not identical;
Data simultaneous operation: select the DSP data Replica of audio amplifier model in this entity audio amplifier, or select the DSP data Replica of entity audio amplifier in this audio amplifier model.
6. the control method of Intellectural active loudspeaker box according to claim 1, is characterized in that: described step 43 comprises the following steps and realizes pairing audio amplifier model manipulation:
On the display interface of display module, show online equipment library, comprise online audio amplifier mark or icon in online equipment library, each online audio amplifier mark or icon represent that one is set up with main control system the entity audio amplifier that network is connected;
The selected selected audio amplifier illustraton of model that online audio amplifier mark identifies or icon is dragged and dropped in system model is put on, automatically triggered and judge whether to carry out matching operation with this;
If the audio amplifier model of audio amplifier model is consistent with the audio amplifier model of online audio amplifier mark or icon institute correspondent entity audio amplifier, can carry out matching operation; If audio amplifier model is inconsistent, point out user can not carry out matching operation;
If execution matching operation, copies to the sequence number of online audio amplifier mark or the corresponding entity audio amplifier of icon in the audio amplifier model object of this audio amplifier model, thereby makes to set up pair relationhip between audio amplifier entity and audio amplifier model; If execution matching operation, can select executing data simultaneous operation;
Data simultaneous operation, all copies to the DSP data of audio amplifier model and matches with it in entity audio amplifier selecting, or selects the DSP data in this entity audio amplifier all to copy in the audio amplifier model object of the audio amplifier model matching with it.
7. the control method of Intellectural active loudspeaker box according to claim 1, it is characterized in that: described audio amplifier DSP data comprise input processing data and output deal with data, wherein input processing data comprise three layers of DSP data, ground floor is audio amplifier layer DSP data, the second layer is array layer DSP data, and the 3rd layer is system layer DSP data.
8. the control method of Intellectural active loudspeaker box according to claim 1, it is characterized in that: entity audio amplifier comprises signal input module, Digital audio process module, power amplifier module and horn module, wherein Digital audio process module comprises input processing module and multiple output processing module;
Input processing module comprises multiple sound effect processors of series connection, each sound effect processor is for carrying out corresponding kind signal processing operations according to the processing parameter setting to audio signal, wherein an initial sound effect processor is connected with signal input module, to receive the audio signal from signal input module, a last sound effect processor is connected with each output processing module, will be divided into multichannel output audio signal through its audio signal after treatment and transfer to a corresponding output processing module;
Each output processing module comprises multiple sound effect processors of series connection, and an initial sound effect processor is filter, this filter is used for receiving the corresponding road output audio signal of this output processing module, and Dui Gai mono-road output audio signal carries out filtering processing, thereby obtain the signal of default frequency range.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104460631A (en) * | 2014-12-15 | 2015-03-25 | 浙江大丰实业股份有限公司 | Distributed type stage sound effect unified allocation system |
CN104703088A (en) * | 2014-12-15 | 2015-06-10 | 浙江大丰实业股份有限公司 | Unified allocation method of distributed stage sound system |
CN106998516A (en) * | 2016-01-25 | 2017-08-01 | 徐文波 | Sound effect treatment method and device applied to external sound card |
CN112202913A (en) * | 2020-10-13 | 2021-01-08 | 广州市比丽普电子有限公司 | Intelligent sound box cloud management system |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1540974A (en) * | 1997-09-11 | 2004-10-27 | ���ṫ˾ | Electronic appliance |
US7042986B1 (en) * | 2002-09-12 | 2006-05-09 | Plantronics, Inc. | DSP-enabled amplified telephone with digital audio processing |
CN101599146A (en) * | 2009-07-13 | 2009-12-09 | 东莞市龙光电子科技有限公司 | A kind of management method of die manufacturing information and system |
CN102780965A (en) * | 2012-08-09 | 2012-11-14 | 广州励丰文化科技股份有限公司 | Method for correcting stage and video professional sound system |
CN102811412A (en) * | 2012-08-09 | 2012-12-05 | 广州励丰文化科技股份有限公司 | Specialized speaker system regulation method |
-
2012
- 2012-12-31 CN CN201210593643.2A patent/CN103916742A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1540974A (en) * | 1997-09-11 | 2004-10-27 | ���ṫ˾ | Electronic appliance |
US7042986B1 (en) * | 2002-09-12 | 2006-05-09 | Plantronics, Inc. | DSP-enabled amplified telephone with digital audio processing |
CN101599146A (en) * | 2009-07-13 | 2009-12-09 | 东莞市龙光电子科技有限公司 | A kind of management method of die manufacturing information and system |
CN102780965A (en) * | 2012-08-09 | 2012-11-14 | 广州励丰文化科技股份有限公司 | Method for correcting stage and video professional sound system |
CN102811412A (en) * | 2012-08-09 | 2012-12-05 | 广州励丰文化科技股份有限公司 | Specialized speaker system regulation method |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104460631A (en) * | 2014-12-15 | 2015-03-25 | 浙江大丰实业股份有限公司 | Distributed type stage sound effect unified allocation system |
CN104703088A (en) * | 2014-12-15 | 2015-06-10 | 浙江大丰实业股份有限公司 | Unified allocation method of distributed stage sound system |
CN106998516A (en) * | 2016-01-25 | 2017-08-01 | 徐文波 | Sound effect treatment method and device applied to external sound card |
CN112202913A (en) * | 2020-10-13 | 2021-01-08 | 广州市比丽普电子有限公司 | Intelligent sound box cloud management system |
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