Nothing Special   »   [go: up one dir, main page]

CN103237282A - Wireless audio processing equipment, wireless audio player and working method thereof - Google Patents

Wireless audio processing equipment, wireless audio player and working method thereof Download PDF

Info

Publication number
CN103237282A
CN103237282A CN2013101700622A CN201310170062A CN103237282A CN 103237282 A CN103237282 A CN 103237282A CN 2013101700622 A CN2013101700622 A CN 2013101700622A CN 201310170062 A CN201310170062 A CN 201310170062A CN 103237282 A CN103237282 A CN 103237282A
Authority
CN
China
Prior art keywords
audio
audio signal
microphone
wireless receiving
module
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN2013101700622A
Other languages
Chinese (zh)
Inventor
陈殿玉
向毅海
林海青
穆攀
武燕青
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
KT MICRO Inc
Beijing KT Micro Ltd
Original Assignee
KT MICRO Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by KT MICRO Inc filed Critical KT MICRO Inc
Priority to CN2013101700622A priority Critical patent/CN103237282A/en
Publication of CN103237282A publication Critical patent/CN103237282A/en
Priority to US14/889,841 priority patent/US9792917B2/en
Priority to PCT/CN2014/077021 priority patent/WO2014180317A1/en
Pending legal-status Critical Current

Links

Images

Landscapes

  • Telephone Function (AREA)
  • Circuit For Audible Band Transducer (AREA)
  • Transmitters (AREA)

Abstract

The invention relates to wireless audio processing equipment, a wireless audio player and a working method thereof. The wireless audio processing equipment comprises a first wireless receiving module, a second wireless receiving module, an audio synthesizing module and an audio output interface, wherein the first wireless receiving module is used for receiving a first audio signal transmitted by a microphone; the second wireless receiving module is used for receiving a second audio signal transmitted by audio playing equipment; the audio synthesizing module is used for synthesizing the first audio signal and the second audio signal to obtain a third audio signal; and the audio output interface is used for outputting the third audio signal. Due to the adoption of the wireless audio processing equipment, the wireless audio player and the working method, when the wireless audio processing equipment and the wireless audio player are used for listening to music or learning language, a user can hear own singing sound or reading sound at the same time, and the self-entertainment and language learning effects are improved greatly.

Description

ANTENN AUDIO treatment facility, ANTENN AUDIO player and method of work thereof
Technical field
The present invention relates to field of wireless transmission, relate in particular to ANTENN AUDIO treatment facility, ANTENN AUDIO player and method of work thereof.
Background technology
When being connected to terminal equipment music appreciatings such as mobile phone, computer with Baffle Box of Bluetooth as people, if hearing the and then humming that the song of liking tends to a sudden impulse comes out, but existing Baffle Box of Bluetooth can only be heard the sound of music, the song of oneself can not be heard, therefore the comprehensive effect of pleasing oneself can't be reached.Similarly, when using Baffle Box of Bluetooth to carry out function of language learning, also be so, often can't clearly experience oneself to follow and read or re-reading effect, and then can't revise in real time, cause results of learning not good.
Therefore, when using audio amplifier to appreciate song or carrying out language learning, can hear user oneself humming or the sound of reading as if the user simultaneously, will significantly promote the effect of pleasing oneself with language learning.
Summary of the invention
The invention provides a kind of ANTENN AUDIO treatment facility and ANTENN AUDIO player, when appreciating song or carrying out language learning with ANTENN AUDIO treatment facility and ANTENN AUDIO player in order to be implemented in, can hear user oneself humming or the sound of reading simultaneously, significantly improve the effect of pleasing oneself with language learning.
The invention provides a kind of ANTENN AUDIO treatment facility, comprising:
First wireless receiving module is used for adopting the wireless receiving technology, receives first audio signal that microphone sends;
Second wireless receiving module is used for adopting the wireless receiving technology, receives second audio signal that audio-frequence player device sends;
The audio frequency synthesis module is used for described first audio signal and described second audio signal are synthesized processing, obtains the 3rd audio signal;
Audio output interface is used for described the 3rd audio signal of output.
The present invention also provides a kind of home-use karaoke OK system, comprising: microphone, audio-frequence player device, arbitrary described ANTENN AUDIO treatment facility and with the loud speaker of described ANTENN AUDIO treatment facility wired connection.
The present invention also provides a kind of ANTENN AUDIO player, comprising:
First wireless receiving module is used for adopting the wireless receiving technology, receives first audio signal that microphone sends;
Second wireless receiving module is used for adopting the wireless receiving technology, receives second audio signal that audio-frequence player device sends;
The audio frequency synthesis module is used for described first audio signal and described second audio signal are synthesized processing, obtains the 3rd audio signal;
Loud speaker is connected with described audio frequency synthesis module, is used for changing described the 3rd audio signal into sound.
The present invention also provides a kind of method of work of ANTENN AUDIO treatment facility, comprising:
First wireless receiving module adopts the wireless receiving technology to receive first audio signal that microphone sends;
Second wireless receiving module adopts the wireless receiving technology to receive second audio signal that audio-frequence player device sends;
The audio frequency synthesis module synthesizes processing to described first audio signal and described second audio signal, obtains the 3rd audio signal;
Audio output interface is exported described the 3rd audio signal.
The present invention also provides a kind of method of work of ANTENN AUDIO player, comprising:
First wireless receiving module adopts the wireless receiving technology to receive first audio signal that microphone sends;
Second wireless receiving module adopts the wireless receiving technology to receive second audio signal that audio-frequence player device sends;
The audio frequency synthesis module synthesizes processing to described first audio signal and described second audio signal, obtains the 3rd audio signal;
Loud speaker changes described the 3rd audio signal into sound.
In the present invention, first wireless receiving module adopts the wireless receiving technology to receive first audio signal that microphone sends, second wireless receiving module adopts the wireless receiving technology to receive second audio signal that audio-frequence player device sends, the audio frequency synthesis module synthesizes processing to first audio signal and second audio signal, obtain the 3rd audio signal, audio output interface exports the 3rd audio signal or loud speaker changes the 3rd audio signal into sound, owing in the ANTENN AUDIO treatment facility, synthesize processing, the user is when using this equipment to appreciate song or carrying out language learning like this, can hear user oneself humming or the sound of reading simultaneously, will significantly promote the effect of pleasing oneself with language learning.
Description of drawings
Fig. 1 is the structural representation of first embodiment of the home-use karaoke OK system of the present invention;
Fig. 2 is the structural representation of second embodiment of the home-use karaoke OK system of the present invention;
Fig. 3 is the structural representation of ANTENN AUDIO player first embodiment of the present invention;
Fig. 4 is the structural representation of ANTENN AUDIO player second embodiment of the present invention;
Fig. 5 is the schematic flow sheet of method of work first embodiment of ANTENN AUDIO treatment facility of the present invention;
Fig. 6 is the schematic flow sheet of method of work second embodiment of ANTENN AUDIO treatment facility of the present invention;
Fig. 7 is the schematic flow sheet of method of work first embodiment of ANTENN AUDIO player of the present invention;
Fig. 8 is the schematic flow sheet of method of work second embodiment of ANTENN AUDIO player of the present invention.
Embodiment
The invention will be further described below in conjunction with specification drawings and specific embodiments.
As shown in Figure 1, be the structural representation of first embodiment of the home-use karaoke OK system of the present invention, this home-use karaoke OK system can comprise: microphone, audio-frequence player device, ANTENN AUDIO treatment facility of the present invention and with the loud speaker 21 of ANTENN AUDIO treatment facility wired connection; ANTENN AUDIO treatment facility of the present invention can comprise: first wireless receiving module 11, second wireless receiving module 12, audio frequency synthesis module 13 and audio output interface 14.Audio frequency synthesis module 13 is connected with second wireless receiving module 12 with first wireless receiving module 11 respectively, and audio output interface 14 is connected with audio frequency synthesis module 13; Loud speaker 21 is connected with audio output interface 14 by the mode of wired connection, is used for changing the 3rd audio signal into sound.
First wireless receiving module 11 is used for adopting the wireless receiving technology, receives first audio signal that microphone sends; Second wireless receiving module 12 is used for adopting the wireless receiving technology, receives second audio signal that audio-frequence player device sends; Alternatively, audio-frequence player device can be mobile phone, PC, notebook computer, mp3, panel computer, set-top box etc.; Audio frequency synthesis module 13 is used for first audio signal after handling and second audio signal after handling is synthesized processing, obtains the 3rd audio signal; Audio output interface 14 is used for output the 3rd audio signal.Audio output interface 14 can be connected to external loud speaker by the mode of wired connection, play back thereby change the 3rd audio signal into sound.
In the present embodiment, first wireless receiving module 11 adopts the wireless receiving technology to receive first audio signal that microphone sends, second wireless receiving module 12 adopts the wireless receiving technology to receive second audio signal that audio-frequence player device sends, 13 pairs of first audio signals of audio frequency synthesis module and second audio signal are synthesized processing, obtain the 3rd audio signal, audio output interface 14 outputs the 3rd audio signal, owing in the ANTENN AUDIO treatment facility, synthesize processing, the user is when using this equipment to appreciate song or carrying out language learning like this, can hear user oneself humming or the sound of reading simultaneously, will significantly promote the effect of pleasing oneself with language learning.
Alternatively, first wireless receiving module 11 can comprise: the first wireless the Internet networking (Wireless Fidelity, hereinafter to be referred as: Wi-Fi) at least one in receiving element, a 2.4G radio receiving unit, the first FM reception unit and the 5.8G radio receiving unit; Wherein, a Wi-Fi receiving element is used for adopting the Wi-Fi technology, receives first audio signal that microphone sends; The one 2.4G radio receiving unit be used for to adopt the 2.4GHz industrial scientific medical (Industry Science Medicine, hereinafter to be referred as: ISM) frequency range receives first audio signal that microphone sends; The first FM reception unit is used for adopting frequency modulation technology, receives first audio signal that microphone sends; The one 5.8G radio receiving unit is used for adopting the 5.8GHz ISM band, receives first audio signal that microphone sends.Alternatively, a 2.4G radio receiving unit is specially: the first bluetooth receiving element, be used for adopting the bluetooth reception technique, and receive first audio signal that microphone sends.
Alternatively, second wireless receiving module can comprise: at least one in the 2nd Wi-Fi receiving element, the 2nd 2.4G radio receiving unit, the second FM reception unit and the 2nd 5.8G radio receiving unit; Wherein, the 2nd Wi-Fi receiving element is used for adopting the Wi-Fi technology, receives second audio signal that audio-frequence player device sends; The 2nd 2.4G radio receiving unit is used for adopting the 2.4GHz ISM band, receives second audio signal that audio-frequence player device sends; The second FM reception unit is used for adopting frequency modulation technology, receives second audio signal that audio-frequence player device sends; The 2nd 5.8G radio receiving unit is used for adopting the 5.8GHz ISM band, receives second audio signal that audio-frequence player device sends.Alternatively, the 2nd 2.4G radio receiving unit is specially: the second bluetooth receiving element, be used for adopting the bluetooth reception technique, and receive second audio signal that audio-frequence player device sends.
Alternatively, the quantity of microphone is more than or equal to 1.And the quantity of a Wi-Fi receiving element equals the quantity of microphone, and a Wi-Fi receiving element is corresponding one by one with microphone, and each Wi-Fi receiving element receives first audio signal that corresponding microphone sends; The quantity of the one 2.4G radio receiving unit equals the quantity of microphone; The quantity of the first FM reception unit equals the quantity of microphone; The quantity of the one 5.8G radio receiving unit equals the quantity of microphone, can realize using simultaneously a plurality of microphones like this.
Alternatively, for the volume to audio signal is adjusted, again referring to structural representation shown in Figure 1, this ANTENN AUDIO treatment facility can also comprise following at least one: first volume control circuit 15, second volume control circuit 16 and the 3rd volume control circuit 19; First volume control circuit 15 is connected between first wireless receiving module 11 and the audio frequency synthesis module 13, is used for the volume of first audio signal is regulated; Second volume control circuit 16 is connected between second wireless receiving module 12 and the audio frequency synthesis module 13, is used for the volume of second audio signal is regulated; The 3rd volume control circuit 19 is connected between audio frequency synthesis module 13 and the audio output interface 14, is used for the volume of the 3rd audio signal is regulated.
Alternatively, again referring to structural representation shown in Figure 1, this ANTENN AUDIO treatment facility can also comprise: first selects switching switch circuit 17 and second to select switching switch circuit 18, the first to select switching switch circuit 17 to be used for selecting first audio signal is sent to audio frequency synthesis module 13 or audio output interface 14; Second selects switching switch circuit 18 to be used for selecting second audio signal is sent to audio frequency synthesis module 13 or audio output interface 14; If second audio signal is sent to audio frequency synthesis module 13, then second audio signal if second audio signal is sent to audio output interface 14, then directly outputs to outside player as sound accompaniment.
As shown in Figure 2, be the structural representation of second embodiment of the home-use karaoke OK system of the present invention, this home-use karaoke OK system can comprise: microphone, audio-frequence player device, ANTENN AUDIO treatment facility of the present invention and with the loud speaker 21 of ANTENN AUDIO treatment facility wired connection; ANTENN AUDIO treatment facility of the present invention can comprise: first wireless receiving module 11, second wireless receiving module 12, audio processing module 20, audio frequency synthesis module 13 and audio output interface 14; Audio processing module 20 is connected with first wireless receiving module 11, and audio frequency synthesis module 13 is connected with audio processing module 20 with second wireless receiving module 12 respectively, and audio output interface 14 is connected with audio frequency synthesis module 13; Loud speaker 21 is connected with audio output interface 14 by the mode of wired connection, is used for changing the 3rd audio signal into sound.
First wireless receiving module 11 is used for adopting the wireless receiving technology, receives first audio signal that microphone sends; Second wireless receiving module 12 is used for adopting the wireless receiving technology, receives second audio signal that audio-frequence player device sends, and alternatively, audio-frequence player device can be mobile phone, PC, notebook computer, mp3, panel computer, set-top box etc.; 20 pairs of first audio signals of audio processing module are carried out audio and are handled output the 4th audio signal, and this audio is handled the processing that can improve sound quality for reverberation, equilibrium, noise reduction etc.; 13 pairs of second audio signals of audio frequency synthesis module and the 4th audio signal are synthesized processing, obtain the 3rd audio signal, and what audio frequency synthesis module 13 carried out is the music audio mixing of specialty; Audio output interface 14 is used for output the 3rd audio signal.Audio output interface 14 can be connected to external loud speaker by the mode of wired connection, play back thereby change the 3rd audio signal into sound.
In the present embodiment, first wireless receiving module 11 adopts the wireless receiving technology to receive first audio signal that microphone sends, second wireless receiving module 12 adopts the wireless receiving technology to receive second audio signal that audio-frequence player device sends, 20 pairs of first audio signals of audio processing module are carried out audio and are handled output the 4th audio signal, 13 pairs of second audio signals of audio frequency synthesis module and the 4th audio signal are synthesized processing, obtain the 3rd audio signal, audio output interface 14 outputs the 3rd audio signal, owing in the ANTENN AUDIO treatment facility, synthesize processing, the user is when using this equipment to appreciate song or carrying out language learning like this, can hear user oneself humming or the sound of reading simultaneously, will significantly promote the effect of pleasing oneself with language learning.
In addition, owing in the ANTENN AUDIO treatment facility, first audio signal has been carried out the audio processing, make that user's use impression is more good.
Alternatively, first wireless receiving module 11 can comprise: at least one in a Wi-Fi receiving element, a 2.4G radio receiving unit, the first FM reception unit and the 5.8G radio receiving unit; Wherein, a Wi-Fi receiving element is used for adopting the Wi-Fi technology, receives first audio signal that microphone sends; The one 2.4G radio receiving unit is used for adopting the 2.4GHz ISM band, receives first audio signal that microphone sends; The first FM reception unit is used for adopting frequency modulation technology, receives first audio signal that microphone sends; The one 5.8G radio receiving unit is used for adopting the 5.8GHz ISM band, receives first audio signal that microphone sends.Alternatively, a 2.4G radio receiving unit is specially: the first bluetooth receiving element, be used for adopting the bluetooth reception technique, and receive first audio signal that microphone sends.
Alternatively, second wireless receiving module can comprise: at least one in the 2nd Wi-Fi receiving element, the 2nd 2.4G radio receiving unit, the second FM reception unit and the 2nd 5.8G radio receiving unit; Wherein, the 2nd Wi-Fi receiving element is used for adopting the Wi-Fi technology, receives second audio signal that audio-frequence player device sends; The 2nd 2.4G radio receiving unit is used for adopting the 2.4GHz ISM band, receives second audio signal that audio-frequence player device sends; The second FM reception unit is used for adopting frequency modulation technology, receives second audio signal that audio-frequence player device sends; The 2nd 5.8G radio receiving unit is used for adopting the 5.8GHz ISM band, receives second audio signal that audio-frequence player device sends.Alternatively, the 2nd 2.4G radio receiving unit is specially: the second bluetooth receiving element, be used for adopting the bluetooth reception technique, and receive second audio signal that audio-frequence player device sends.
Alternatively, the quantity of microphone is more than or equal to 1.And the quantity of a Wi-Fi receiving element equals the quantity of microphone, and a Wi-Fi receiving element is corresponding one by one with microphone, and each Wi-Fi receiving element receives first audio signal that corresponding microphone sends; The quantity of the one 2.4G radio receiving unit equals the quantity of microphone; The quantity of the first FM reception unit equals the quantity of microphone; The quantity of the one 5.8G radio receiving unit equals the quantity of microphone, can realize using simultaneously a plurality of microphones like this.
Alternatively, for the volume to audio signal is adjusted, again referring to structural representation shown in Figure 2, this ANTENN AUDIO treatment facility can also comprise following at least one: first volume control circuit 15, second volume control circuit 16 and the 3rd volume control circuit 19; First volume control circuit 15 is connected between audio processing module 20 and the audio frequency synthesis module 13, is used for the volume of first audio signal is regulated; Second volume control circuit 16 is connected between second wireless receiving module 12 and the audio frequency synthesis module 13, is used for the volume of the 4th audio signal is regulated; The 3rd volume control circuit is connected between audio frequency synthesis module 13 and the audio output interface 14, is used for the volume of the 3rd audio signal is regulated.
Alternatively, again referring to structural representation shown in Figure 2, this embodiment can also comprise: first selects switching switch circuit 17 and second to select switching switch circuit 18, first selects switching switch circuit 17, is used for selecting the 4th audio signal is sent to audio frequency synthesis module 13 or audio output interface 14; Second selects switching switch circuit 18, is used for selecting second audio signal is sent to audio frequency synthesis module 13 or audio output interface 14.
As shown in Figure 3, be the structural representation of ANTENN AUDIO player first embodiment of the present invention, the ANTENN AUDIO player can comprise: first wireless receiving module 11, second wireless receiving module 12, audio frequency synthesis module 13 and loud speaker 34; Audio frequency synthesis module 13 is connected with second wireless receiving module 12 with first wireless receiving module 11 respectively, and loud speaker 34 is connected with audio frequency synthesis module 13.
First wireless receiving module 11 is used for adopting the wireless receiving technology, receives first audio signal that microphone sends; Second wireless receiving module 12 is used for adopting the wireless receiving technology, receives second audio signal that audio-frequence player device sends; Alternatively, audio-frequence player device can be mobile phone, PC, notebook computer, mp3, panel computer, set-top box etc.; Audio frequency synthesis module 13 is used for first audio signal after handling and second audio signal after handling is synthesized processing, obtains the 3rd audio signal; Loud speaker 34 is used for changing the 3rd audio signal into sound.
In the present embodiment, first wireless receiving module 11 adopts the wireless receiving technology to receive first audio signal that microphone sends, second wireless receiving module 12 adopts the wireless receiving technology to receive second audio signal that audio-frequence player device sends, 13 pairs of first audio signals of audio frequency synthesis module and second audio signal are synthesized processing, obtain the 3rd audio signal, loud speaker 34 changes the 3rd audio signal into sound, owing in the ANTENN AUDIO player, synthesize processing, the user is when using this player to appreciate song or carrying out language learning like this, can hear user oneself humming or the sound of reading simultaneously, will significantly promote the effect of pleasing oneself with language learning.
Alternatively, first wireless receiving module 11 can comprise: at least one in a Wi-Fi receiving element, a 2.4G radio receiving unit, the first FM reception unit and the 5.8G radio receiving unit; Wherein, a Wi-Fi receiving element is used for adopting the Wi-Fi technology, receives first audio signal that microphone sends; The one 2.4G radio receiving unit is used for adopting the 2.4GHz ISM band, receives first audio signal that microphone sends; The first FM reception unit is used for adopting frequency modulation technology, receives first audio signal that microphone sends; The one 5.8G radio receiving unit is used for adopting the 5.8GHz ISM band, receives first audio signal that microphone sends.Alternatively, a 2.4G radio receiving unit is specially: the first bluetooth receiving element, be used for adopting the bluetooth reception technique, and receive first audio signal that microphone sends.
Alternatively, second wireless receiving module can comprise: at least one in the 2nd Wi-Fi receiving element, the 2nd 2.4G radio receiving unit, the second FM reception unit and the 2nd 5.8G radio receiving unit; Wherein, the 2nd Wi-Fi receiving element is used for adopting the Wi-Fi technology, receives second audio signal that audio-frequence player device sends; The 2nd 2.4G radio receiving unit is used for adopting the 2.4GHz ISM band, receives second audio signal that audio-frequence player device sends; The second FM reception unit is used for adopting frequency modulation technology, receives second audio signal that audio-frequence player device sends; The 2nd 5.8G radio receiving unit is used for adopting the 5.8GHz ISM band, receives second audio signal that audio-frequence player device sends.Alternatively, the 2nd 2.4G radio receiving unit is specially: the second bluetooth receiving element, be used for adopting the bluetooth reception technique, and receive second audio signal that audio-frequence player device sends.
Alternatively, the quantity of microphone is more than or equal to 1.And the quantity of a Wi-Fi receiving element equals the quantity of microphone, and a Wi-Fi receiving element is corresponding one by one with microphone, and each Wi-Fi receiving element receives first audio signal that corresponding microphone sends; The quantity of the one 2.4G radio receiving unit equals the quantity of microphone; The quantity of the first FM reception unit equals the quantity of microphone; The quantity of the one 5.8G radio receiving unit equals the quantity of microphone, can realize using simultaneously a plurality of microphones like this.
Alternatively, for the volume to audio signal is adjusted, again referring to structural representation shown in Figure 3, the ANTENN AUDIO player can also comprise following at least one: first volume control circuit 15, second volume control circuit 16 and the 3rd volume control circuit 19; First volume control circuit 15 is connected between first wireless receiving module 11 and the audio frequency synthesis module 13, is used for the volume of first audio signal is regulated; Second volume control circuit 16 is connected between second wireless receiving module 12 and the audio frequency synthesis module 13, is used for the volume of second audio signal is regulated; The 3rd volume control circuit 19 is connected between audio frequency synthesis module 13 and the loud speaker 14, is used for the volume of the 3rd audio signal is regulated.
Alternatively, again referring to structural representation shown in Figure 3, the ANTENN AUDIO player can also comprise: first selects switching switch circuit 17 and second to select switching switch circuit 18, first selects switching switch circuit 17, is used for selecting first audio signal is sent to audio frequency synthesis module 13 or loud speaker 34; Second selects switching switch circuit 18, is used for selecting second audio signal is sent to audio frequency synthesis module 13 or loud speaker 34.
As shown in Figure 4, be the structural representation of ANTENN AUDIO player second embodiment of the present invention, the ANTENN AUDIO player can comprise: first wireless receiving module 11, second wireless receiving module 12, audio processing module 20, audio frequency synthesis module 13 and loud speaker 34; Audio processing module 20 is connected with first wireless receiving module 11, and audio frequency synthesis module 13 is connected with audio processing module 20 with second wireless receiving module 12 respectively, and loud speaker 34 is connected with audio frequency synthesis module 13.
First wireless receiving module 11 is used for adopting the wireless receiving technology, receives first audio signal that microphone sends; Second wireless receiving module 12 is used for adopting the wireless receiving technology, receives second audio signal that audio-frequence player device sends; Alternatively, audio-frequence player device can be mobile phone, PC, notebook computer, mp3, panel computer, set-top box etc.; Audio processing module 20 is used for that described first audio signal is carried out audio and handles, and exports the 4th audio signal, and this audio is handled the processing that can improve sound quality for reverberation, equilibrium, noise reduction etc.; Audio frequency synthesis module 13 is used for second audio signal and the 4th audio signal are synthesized processing, obtains the 3rd audio signal; Loud speaker 34 is used for changing the 3rd audio signal into sound.
In the present embodiment, 11 of the first wireless receiving moulds adopt the wireless receiving technology to receive first audio signal that microphone sends, second wireless receiving module 12 adopts the wireless receiving technology to receive second audio signal that audio-frequence player device sends, 20 pairs of first audio signals of audio processing module are carried out audio and are handled output the 4th audio signal, 13 pairs of second audio signals of audio frequency synthesis module and the 4th audio signal are synthesized processing, obtain the 3rd audio signal, loud speaker 34 changes the 3rd audio signal into sound, owing in the ANTENN AUDIO player, synthesize processing, the user is when using this player to appreciate song or carrying out language learning like this, can hear user oneself humming or the sound of reading simultaneously, will significantly promote the effect of pleasing oneself with language learning.
In addition, owing in the ANTENN AUDIO player, first audio signal has been carried out the audio processing, make that user's use impression is more good.
Alternatively, first wireless receiving module 11 can comprise: at least one in a Wi-Fi receiving element, a 2.4G radio receiving unit, the first FM reception unit and the 5.8G radio receiving unit; Wherein, a Wi-Fi receiving element is used for adopting the Wi-Fi technology, receives first audio signal that microphone sends; The one 2.4G radio receiving unit is used for adopting the 2.4GHz ISM band, receives first audio signal that microphone sends; The first FM reception unit is used for adopting frequency modulation technology, receives first audio signal that microphone sends; The one 5.8G radio receiving unit is used for adopting the 5.8GHz ISM band, receives first audio signal that microphone sends.Alternatively, a 2.4G radio receiving unit is specially: the first bluetooth receiving element, be used for adopting the bluetooth reception technique, and receive first audio signal that microphone sends.
Alternatively, second wireless receiving module can comprise: at least one in the 2nd Wi-Fi receiving element, the 2nd 2.4G radio receiving unit, the second FM reception unit and the 2nd 5.8G radio receiving unit; Wherein, the 2nd Wi-Fi receiving element is used for adopting the Wi-Fi technology, receives second audio signal that audio-frequence player device sends; The 2nd 2.4G radio receiving unit is used for adopting the 2.4GHz ISM band, receives second audio signal that audio-frequence player device sends; The second FM reception unit is used for adopting frequency modulation technology, receives second audio signal that audio-frequence player device sends; The 2nd 5.8G radio receiving unit is used for adopting the 5.8GHz ISM band, receives second audio signal that audio-frequence player device sends.Alternatively, the 2nd 2.4G radio receiving unit is specially: the second bluetooth receiving element, be used for adopting the bluetooth reception technique, and receive second audio signal that audio-frequence player device sends.
Alternatively, the quantity of microphone is more than or equal to 1.And the quantity of a Wi-Fi receiving element equals the quantity of microphone, and a Wi-Fi receiving element is corresponding one by one with microphone, and each Wi-Fi receiving element receives first audio signal that corresponding microphone sends; The quantity of the one 2.4G radio receiving unit equals the quantity of microphone; The quantity of the first FM reception unit equals the quantity of microphone; The quantity of the one 5.8G radio receiving unit equals the quantity of microphone, can realize using simultaneously a plurality of microphones like this.
Alternatively, for the volume to audio signal is adjusted, again referring to structural representation shown in Figure 4, the ANTENN AUDIO player can also comprise following at least one: first volume control circuit 15, second volume control circuit 16 and the 3rd volume control circuit 19; First volume control circuit 15 is connected between audio processing module 20 and the audio frequency synthesis module 13, is used for the volume of the 4th audio signal is regulated; Second volume control circuit 16 is connected between second wireless receiving module 12 and the audio frequency synthesis module 13, is used for the volume of second audio signal is regulated; The 3rd volume control circuit 19 is connected between audio frequency synthesis module 13 and the loud speaker 14, is used for the volume of the 3rd audio signal is regulated.
Alternatively, again referring to structural representation shown in Figure 4, the ANTENN AUDIO player can also comprise: first selects switching switch circuit 17 and second to select switching switch circuit 18, the first to select switching switch circuit 17 to be used for selecting described the 4th audio signal is sent to audio frequency synthesis module 13 or loud speaker 34; Second selects switching switch circuit 18 to be used for selecting second audio signal is sent to audio frequency synthesis module 13 or loud speaker 34.
As shown in Figure 5, the schematic flow sheet for method of work first embodiment of ANTENN AUDIO treatment facility of the present invention can comprise the steps:
Step 501, first wireless receiving module adopt the wireless receiving technology to receive first audio signal that microphone sends;
Alternatively, first wireless receiving module can comprise: at least one in a Wi-Fi receiving element, a 2.4G radio receiving unit, the first FM reception unit and the 5.8G radio receiving unit; Wherein, a Wi-Fi receiving element adopts the Wi-Fi technology to receive first audio signal that microphone sends; The one 2.4G radio receiving unit adopts the 2.4GHz ISM band to receive first audio signal that microphone sends; The first FM reception unit adopts frequency modulation technology to receive first audio signal that microphone sends; The one 5.8G radio receiving unit adopts the 5.8GHz ISM band to receive first audio signal that microphone sends.Alternatively, a 2.4G radio receiving unit adopts first audio signal of 2.4GHz ISM band reception microphone transmission to be specially: the first bluetooth receiving element adopts the bluetooth reception technique to receive first audio signal that microphone sends.
Step 502, second wireless receiving module adopt the wireless receiving technology to receive second audio signal that audio-frequence player device sends;
Alternatively, second wireless receiving module can comprise: at least one in the 2nd Wi-Fi receiving element, the 2nd 2.4G radio receiving unit, the second FM reception unit and the 2nd 5.8G radio receiving unit; Wherein, the 2nd Wi-Fi receiving element adopts the Wi-Fi technology to receive second audio signal that audio-frequence player device sends; The 2nd 2.4G radio receiving unit adopts the 2.4GHz ISM band to receive second audio signal that audio-frequence player device sends; The second FM reception unit adopts frequency modulation technology to receive second audio signal that audio-frequence player device sends; The 2nd 5.8G radio receiving unit adopts the 5.8GHz ISM band to receive second audio signal that audio-frequence player device sends.Alternatively, the 2nd 2.4G radio receiving unit adopts second audio signal of 2.4GHz ISM band reception audio-frequence player device transmission to be specially: the bluetooth receiving element adopts the bluetooth reception technique to receive second audio signal that audio-frequence player device sends.
Alternatively, the quantity of microphone is more than or equal to 1.And the quantity of a Wi-Fi receiving element equals the quantity of microphone, and a Wi-Fi receiving element is corresponding one by one with microphone, and each Wi-Fi receiving element receives first audio signal that corresponding microphone sends; The quantity of the one 2.4G radio receiving unit equals the quantity of microphone; The quantity of the first FM reception unit equals the quantity of microphone; The quantity of the one 5.8G radio receiving unit equals the quantity of microphone, can realize using simultaneously a plurality of microphones like this.
Step 503, audio frequency synthesis module synthesize processing to first audio signal and second audio signal, obtain the 3rd audio signal;
Alternatively, when the user when using this ANTENN AUDIO treatment facility to appreciate song or carrying out language learning, can hear user oneself humming or the sound of reading simultaneously, will significantly promote the effect of pleasing oneself with language learning.
Step 504, audio output interface are exported the 3rd audio signal.
Need to prove there is not strict sequential relationship between step 501 and the step 502.
In the present embodiment, at first first wireless receiving module adopts the wireless receiving technology to receive first audio signal that microphone sends, second wireless receiving module adopts the wireless receiving technology to receive second audio signal that audio-frequence player device sends, the audio frequency synthesis module synthesizes processing to first audio signal and second audio signal then, obtain the 3rd audio signal, last audio output interface is exported the 3rd audio signal, owing in the ANTENN AUDIO treatment facility, synthesize processing, the user is when using this equipment to appreciate song or carrying out language learning like this, can hear user oneself humming or the sound of reading simultaneously, will significantly promote the effect of pleasing oneself with language learning.
Alternatively, referring to schematic flow sheet shown in Figure 5, can also comprise the steps: after the step 501, before the step 503
Step 505, first volume control circuit are regulated the volume of first audio signal;
First volume control circuit is connected between first wireless receiving module and the audio frequency synthesis module.
Can also comprise the steps: after the step 502, before the step 503
Step 506, second volume control circuit are regulated the volume of second audio signal;
Second volume control circuit is connected between second wireless receiving module and the audio frequency synthesis module.
Can also comprise the steps: before the step 504 alternatively, after the step 503,
Step 509, the 3rd volume control circuit are regulated the volume of the 3rd audio signal;
The 3rd volume control circuit is connected between audio frequency synthesis module and the audio output interface.
Need to prove, in one embodiment, can comprise at least one step in step 505, step 506 and the step 509.
Alternatively, referring to schematic flow sheet shown in Figure 5, can also comprise the steps: after the step 501, before the step 503
Step 507, first selects switching switch circuit to select first audio signal is sent to audio frequency synthesis module or audio output interface;
Can also comprise the steps: after the step 502, before the step 503
Step 508, second selects switching switch circuit to select second audio signal is sent to audio frequency synthesis module or audio output interface.
As shown in Figure 6, the schematic flow sheet for method of work second embodiment of ANTENN AUDIO treatment facility of the present invention can comprise the steps:
Step 601, first wireless receiving module adopt the wireless receiving technology to receive first audio signal that microphone sends;
Alternatively, first wireless receiving module can comprise: at least one in a Wi-Fi receiving element, a 2.4G radio receiving unit, the first FM reception unit and the 5.8G radio receiving unit; Wherein, a Wi-Fi receiving element adopts the Wi-Fi technology to receive first audio signal that microphone sends; The one 2.4G radio receiving unit adopts the 2.4GHz ISM band to receive first audio signal that microphone sends; The first FM reception unit adopts frequency modulation technology to receive first audio signal that microphone sends; The one 5.8G radio receiving unit adopts the 5.8GHz ISM band to receive first audio signal that microphone sends.Alternatively, a 2.4G radio receiving unit adopts first audio signal of 2.4GHz ISM band reception microphone transmission to be specially: the first bluetooth receiving element adopts the bluetooth reception technique to receive first audio signal that microphone sends.
Step 602, second wireless receiving module adopt the wireless receiving technology to receive second audio signal that audio-frequence player device sends;
Alternatively, second wireless receiving module can comprise: at least one in the 2nd Wi-Fi receiving element, the 2nd 2.4G radio receiving unit, the second FM reception unit and the 2nd 5.8G radio receiving unit; Wherein, the 2nd Wi-Fi receiving element adopts the Wi-Fi technology to receive second audio signal that audio-frequence player device sends; The 2nd 2.4G radio receiving unit adopts the 2.4GHz ISM band to receive second audio signal that audio-frequence player device sends; The second FM reception unit adopts frequency modulation technology to receive second audio signal that audio-frequence player device sends; The 2nd 5.8G radio receiving unit adopts the 5.8GHz ISM band to receive second audio signal that audio-frequence player device sends.Alternatively, the 2nd 2.4G radio receiving unit adopts second audio signal of 2.4GHz ISM band reception audio-frequence player device transmission to be specially: the second bluetooth receiving element adopts the bluetooth reception technique to receive second audio signal that audio-frequence player device sends.
Alternatively, the quantity of microphone is more than or equal to 1.And the quantity of a Wi-Fi receiving element equals the quantity of microphone, and a Wi-Fi receiving element is corresponding one by one with microphone, and each Wi-Fi receiving element receives first audio signal that corresponding microphone sends; The quantity of the one 2.4G radio receiving unit equals the quantity of microphone; The quantity of the first FM reception unit equals the quantity of microphone; The quantity of the one 5.8G radio receiving unit equals the quantity of microphone, can realize using simultaneously a plurality of microphones like this.
Step 603, audio processing module are carried out the audio processing to first audio signal, export the 4th audio signal;
This audio is handled the processing that can improve sound quality for reverberation, equilibrium, noise reduction etc.;
Step 604, audio frequency synthesis module synthesize processing to second audio signal and the 4th audio signal, obtain the 3rd audio signal;
Alternatively, when the user when using this ANTENN AUDIO treatment facility to appreciate song or carrying out language learning, can hear user oneself humming or the sound of reading simultaneously, will significantly promote the effect of pleasing oneself with language learning.
Step 605, audio output interface are exported the 3rd audio signal.
Need to prove there is not strict sequential relationship between step 601 and the step 602.
In the present embodiment, at first first wireless receiving module adopts the wireless receiving technology to receive first audio signal that microphone sends, second wireless receiving module adopts the wireless receiving technology to receive second audio signal that audio-frequence player device sends, the audio processing module is carried out the audio processing to first audio signal then, exports the 4th audio signal; The audio frequency synthesis module synthesizes processing to second audio signal and the 4th audio signal, obtain the 3rd audio signal, last audio output interface is exported the 3rd audio signal, owing in the ANTENN AUDIO treatment facility, synthesize processing, the user is when using this equipment to appreciate song or carrying out language learning like this, can hear user oneself humming or the sound of reading simultaneously, will significantly promote the effect of pleasing oneself with language learning.
In addition, owing in the ANTENN AUDIO treatment facility, first audio signal has been carried out the audio processing, make that user's use impression is more good.
Alternatively, referring to schematic flow sheet shown in Figure 6, can also comprise the steps: after the step 603, before the step 604
Step 606, first volume control circuit are regulated the volume of the 4th audio signal;
First volume control circuit is connected between audio processing module and the audio frequency synthesis module.
Can also comprise the steps: after the step 602, before the step 604
Step 607, second volume control circuit are regulated the volume of second audio signal;
Second volume control circuit is connected between second wireless receiving module and the audio frequency synthesis module.
Can also comprise the steps: before the step 605 alternatively, after the step 604,
Step 610, the 3rd volume control circuit are regulated the volume of the 3rd audio signal;
The 3rd volume control circuit is connected between audio frequency synthesis module and the audio output interface.
Need to prove, in one embodiment, can comprise at least one step in step 606, step 607 and the step 610.
Alternatively, referring to schematic flow sheet shown in Figure 6, can also comprise the steps: after the step 603, before the step 604
Step 608, first selects switching switch circuit to select the 4th audio signal is sent to audio frequency synthesis module or audio output interface;
Can also comprise the steps: after the step 602, before the step 604
Step 609, second selects switching switch circuit to select second audio signal is sent to audio frequency synthesis module or audio output interface.
As shown in Figure 7, the schematic flow sheet for method of work first embodiment of ANTENN AUDIO player of the present invention can comprise the steps:
Step 701, first wireless receiving module adopt the wireless receiving technology to receive first audio signal that microphone sends;
Alternatively, first wireless receiving module can comprise: at least one in a Wi-Fi receiving element, a 2.4G radio receiving unit, the first FM reception unit and the 5.8G radio receiving unit; Wherein, a Wi-Fi receiving element adopts the Wi-Fi technology to receive first audio signal that microphone sends; The one 2.4G radio receiving unit adopts the 2.4GHz ISM band to receive first audio signal that microphone sends; The first FM reception unit adopts frequency modulation technology to receive first audio signal that microphone sends; The one 5.8G radio receiving unit adopts the 5.8GHz ISM band to receive first audio signal that microphone sends.Alternatively, a 2.4G radio receiving unit adopts first audio signal of 2.4GHz ISM band reception microphone transmission to be specially: the first bluetooth receiving element adopts the bluetooth reception technique to receive first audio signal that microphone sends.
Step 702, second wireless receiving module adopt the wireless receiving technology to receive second audio signal that audio-frequence player device sends;
Alternatively, second wireless receiving module can comprise: at least one in the 2nd Wi-Fi receiving element, the 2nd 2.4G radio receiving unit, the second FM reception unit and the 2nd 5.8G radio receiving unit; Wherein, the 2nd Wi-Fi receiving element adopts the Wi-Fi technology to receive second audio signal that audio-frequence player device sends; The 2nd 2.4G radio receiving unit adopts the 2.4GHz ISM band to receive second audio signal that audio-frequence player device sends; The second FM reception unit adopts frequency modulation technology to receive second audio signal that audio-frequence player device sends; The 2nd 5.8G radio receiving unit adopts the 5.8GHz ISM band to receive second audio signal that audio-frequence player device sends.Alternatively, the 2nd 2.4G radio receiving unit adopts second audio signal of 2.4GHz ISM band reception audio-frequence player device transmission to be specially: the second bluetooth receiving element adopts the bluetooth reception technique to receive second audio signal that audio-frequence player device sends.
Alternatively, the quantity of microphone is more than or equal to 1.And the quantity of a Wi-Fi receiving element equals the quantity of microphone, and a Wi-Fi receiving element is corresponding one by one with microphone, and each Wi-Fi receiving element receives first audio signal that corresponding microphone sends; The quantity of the one 2.4G radio receiving unit equals the quantity of microphone; The quantity of the first FM reception unit equals the quantity of microphone; The quantity of the one 5.8G radio receiving unit equals the quantity of microphone, can realize using simultaneously a plurality of microphones like this.
Step 703, audio frequency synthesis module synthesize processing to first audio signal and second audio signal, obtain the 3rd audio signal;
Alternatively, when the user when using this ANTENN AUDIO treatment facility to appreciate song or carrying out language learning, can hear user oneself humming or the sound of reading simultaneously, will significantly promote the effect of pleasing oneself with language learning.
Step 704, loud speaker change the 3rd audio signal into sound.
Need to prove there is not strict sequential relationship between step 701 and the step 702.
In the present embodiment, at first first wireless receiving module adopts the wireless receiving technology to receive first audio signal that microphone sends, second wireless receiving module adopts the wireless receiving technology to receive second audio signal that audio-frequence player device sends, the audio frequency synthesis module synthesizes processing to first audio signal and second audio signal then, obtain the 3rd audio signal, last loud speaker changes the 3rd audio signal into sound, owing in the ANTENN AUDIO treatment facility, synthesize processing, the user is when using this equipment to appreciate song or carrying out language learning like this, can hear user oneself humming or the sound of reading simultaneously, will significantly promote the effect of pleasing oneself with language learning.
Alternatively, referring to schematic flow sheet shown in Figure 7, can also comprise the steps: after the step 701, before the step 703
Step 705, first volume control circuit are regulated the volume of first audio signal;
First volume control circuit is connected between first wireless receiving module and the audio frequency synthesis module.
Can also comprise the steps: after the step 702, before the step 703
Step 706, second volume control circuit are regulated the volume of second audio signal;
Second volume control circuit is connected between second wireless receiving module and the audio frequency synthesis module.
Can also comprise the steps: before the step 704 alternatively, after the step 703,
Step 709, the 3rd volume control circuit are regulated the volume of the 3rd audio signal;
The 3rd volume control circuit is connected between audio frequency synthesis module and the loud speaker.
Need to prove, in one embodiment, can comprise at least one step in step 705, step 706 and the step 709.
Alternatively, referring to schematic flow sheet shown in Figure 7, can also comprise the steps: after the step 701, before the step 703
Step 707, first selects switching switch circuit to select first audio signal is sent to audio frequency synthesis module or loud speaker;
Can also comprise the steps: after the step 702, before the step 703
Step 708, second selects switching switch circuit to select second audio signal is sent to audio frequency synthesis module or loud speaker.
As shown in Figure 8, the schematic flow sheet for method of work second embodiment of ANTENN AUDIO player of the present invention can comprise the steps:
Step 801, first wireless receiving module adopt the wireless receiving technology to receive first audio signal that microphone sends;
Alternatively, first wireless receiving module can comprise: at least one in a Wi-Fi receiving element, a 2.4G radio receiving unit, the first FM reception unit and the 5.8G radio receiving unit; Wherein, a Wi-Fi receiving element adopts the Wi-Fi technology to receive first audio signal that microphone sends; The one 2.4G radio receiving unit adopts the 2.4GHz ISM band to receive first audio signal that microphone sends; The first FM reception unit adopts frequency modulation technology to receive first audio signal that microphone sends; The one 5.8G radio receiving unit adopts the 5.8GHz ISM band to receive first audio signal that microphone sends.Alternatively, a 2.4G radio receiving unit adopts first audio signal of 2.4GHz ISM band reception microphone transmission to be specially: the first bluetooth receiving element adopts the bluetooth reception technique to receive first audio signal that microphone sends.
Step 802, second wireless receiving module adopt the wireless receiving technology to receive second audio signal that audio-frequence player device sends;
Alternatively, second wireless receiving module can comprise: at least one in the 2nd Wi-Fi receiving element, the 2nd 2.4G radio receiving unit, the second FM reception unit and the 2nd 5.8G radio receiving unit; Wherein, the 2nd Wi-Fi receiving element adopts the Wi-Fi technology to receive second audio signal that audio-frequence player device sends; The 2nd 2.4G radio receiving unit adopts the 2.4GHz ISM band to receive second audio signal that audio-frequence player device sends; The second FM reception unit adopts frequency modulation technology to receive second audio signal that audio-frequence player device sends; The 2nd 5.8G radio receiving unit adopts the 5.8GHz ISM band to receive second audio signal that audio-frequence player device sends.Alternatively, the 2nd 2.4G radio receiving unit adopts second audio signal of 2.4GHz ISM band reception audio-frequence player device transmission to be specially: the second bluetooth receiving element adopts the bluetooth reception technique to receive second audio signal that audio-frequence player device sends.
Alternatively, the quantity of microphone is more than or equal to 1.And the quantity of a Wi-Fi receiving element equals the quantity of microphone, and a Wi-Fi receiving element is corresponding one by one with microphone, and each Wi-Fi receiving element receives first audio signal that corresponding microphone sends; The quantity of the one 2.4G radio receiving unit equals the quantity of microphone; The quantity of the first FM reception unit equals the quantity of microphone; The quantity of the one 5.8G radio receiving unit equals the quantity of microphone, can realize using simultaneously a plurality of microphones like this.
Step 803, audio processing module are carried out the audio processing to first audio signal, export the 4th audio signal;
This audio is handled the processing that can improve sound quality for reverberation, equilibrium, noise reduction etc.;
Step 804, audio frequency synthesis module synthesize processing to second audio signal and the 4th audio signal, obtain the 3rd audio signal;
Alternatively, when the user when using this ANTENN AUDIO treatment facility to appreciate song or carrying out language learning, can hear user oneself humming or the sound of reading simultaneously, will significantly promote the effect of pleasing oneself with language learning.
Step 805, loud speaker change the 3rd audio signal into sound.
Need to prove there is not strict sequential relationship between step 801 and the step 802.
In the present embodiment, at first first wireless receiving module adopts the wireless receiving technology to receive first audio signal that microphone sends, second wireless receiving module adopts the wireless receiving technology to receive second audio signal that audio-frequence player device sends, the audio processing module is carried out the audio processing to first audio signal then, exports the 4th audio signal; The audio frequency synthesis module synthesizes processing to second audio signal and the 4th audio signal, obtain the 3rd audio signal, last loud speaker changes the 3rd audio signal into sound, owing in the ANTENN AUDIO treatment facility, synthesize processing, the user is when using this equipment to appreciate song or carrying out language learning like this, can hear user oneself humming or the sound of reading simultaneously, will significantly promote the effect of pleasing oneself with language learning.
In addition, owing in the ANTENN AUDIO player, first audio signal has been carried out the audio processing, make that user's use impression is more good.
Alternatively, referring to schematic flow sheet shown in Figure 8, can also comprise the steps: after the step 803, before the step 804
Step 806, first volume control circuit are regulated the volume of the 4th audio signal;
First volume control circuit is connected between audio processing module and the audio frequency synthesis module.
Can also comprise the steps: after the step 802, before the step 804
Step 807, second volume control circuit are regulated the volume of second audio signal;
Second volume control circuit is connected between second wireless receiving module and the audio frequency synthesis module.
Can also comprise the steps: before the step 805 alternatively, after the step 804,
Step 810, the 3rd volume control circuit are regulated the volume of the 3rd audio signal;
The 3rd volume control circuit is connected between audio frequency synthesis module and the loud speaker.
Need to prove, in one embodiment, can comprise at least one step in step 806, step 807 and the step 810.
Alternatively, referring to schematic flow sheet shown in Figure 8, can also comprise the steps: after the step 803, before the step 804
Step 808, first selects switching switch circuit to select the 4th audio signal is sent to audio frequency synthesis module or loud speaker;
Can also comprise the steps: after the step 802, before the step 804
Step 809, second selects switching switch circuit to select second audio signal is sent to audio frequency synthesis module or loud speaker.
It should be noted that at last: above embodiment is only unrestricted in order to technical scheme of the present invention to be described, although with reference to preferred embodiment the present invention is had been described in detail, those of ordinary skill in the art is to be understood that, can make amendment or be equal to replacement technical scheme of the present invention, and not break away from the spirit and scope of technical solution of the present invention.

Claims (19)

1. an ANTENN AUDIO treatment facility is characterized in that, comprising:
First wireless receiving module is used for adopting the wireless receiving technology, receives first audio signal that microphone sends;
Second wireless receiving module is used for adopting the wireless receiving technology, receives second audio signal that audio-frequence player device sends;
The audio frequency synthesis module is used for described first audio signal and described second audio signal are synthesized processing, obtains the 3rd audio signal;
Audio output interface is used for described the 3rd audio signal of output.
2. ANTENN AUDIO treatment facility according to claim 1 is characterized in that, also comprises:
The audio processing module is used for that described first audio signal is carried out audio and handles, and exports the 4th audio signal;
Described audio frequency synthesis module is used for described second audio signal and described the 4th audio signal are synthesized processing, obtains the 3rd audio signal.
3. ANTENN AUDIO treatment facility according to claim 1, it is characterized in that described first wireless receiving module comprises: at least one in a Wi-Fi receiving element, a 2.4G radio receiving unit, the first FM reception unit and the 5.8G radio receiving unit;
Described second wireless receiving module comprises: at least one in the 2nd Wi-Fi receiving element, the 2nd 2.4G radio receiving unit, the second FM reception unit and the 2nd 5.8G radio receiving unit.
4. ANTENN AUDIO treatment facility according to claim 3 is characterized in that, the quantity of described microphone is more than or equal to 1.
5. ANTENN AUDIO treatment facility according to claim 4 is characterized in that:
The quantity of a described Wi-Fi receiving element equals the quantity of described microphone;
The quantity of a described 2.4G radio receiving unit equals the quantity of described microphone;
The quantity of the described first FM reception unit equals the quantity of described microphone;
The quantity of a described 5.8G radio receiving unit equals the quantity of described microphone.
6. a home-use karaoke OK system is characterized in that, comprise microphone, audio-frequence player device, the arbitrary described ANTENN AUDIO treatment facility of claim 1-5 and with the loud speaker of described ANTENN AUDIO treatment facility wired connection.
7. an ANTENN AUDIO player is characterized in that, comprising:
First wireless receiving module is used for adopting the wireless receiving technology, receives first audio signal that microphone sends;
Second wireless receiving module is used for adopting the wireless receiving technology, receives second audio signal that audio-frequence player device sends;
The audio frequency synthesis module is used for described first audio signal and described second audio signal are synthesized processing, obtains the 3rd audio signal;
Loud speaker is connected with described audio frequency synthesis module, is used for changing described the 3rd audio signal into sound.
8. ANTENN AUDIO player according to claim 7 is characterized in that, also comprises:
The audio processing module is used for that described first audio signal is carried out audio and handles, and exports the 4th audio signal;
Described audio frequency synthesis module is used for described second audio signal and described the 4th audio signal are synthesized processing, obtains the 3rd audio signal.
9. ANTENN AUDIO player according to claim 7, it is characterized in that described first wireless receiving module comprises: at least one in a Wi-Fi receiving element, a 2.4G radio receiving unit, the first FM reception unit and the 5.8G radio receiving unit;
Described second wireless receiving module comprises: at least one in the 2nd Wi-Fi receiving element, the 2nd 2.4G radio receiving unit, the second FM reception unit and the 2nd 5.8G radio receiving unit.
10. ANTENN AUDIO player according to claim 9 is characterized in that, the quantity of described microphone is more than or equal to 1.
11. ANTENN AUDIO player according to claim 10 is characterized in that:
The quantity of a described Wi-Fi receiving element equals the quantity of described microphone;
The quantity of a described 2.4G radio receiving unit equals the quantity of described microphone;
The quantity of the described first FM reception unit equals the quantity of described microphone;
The quantity of a described 5.8G radio receiving unit equals the quantity of described microphone.
12. the method for work of an ANTENN AUDIO treatment facility is characterized in that, comprising:
First wireless receiving module adopts the wireless receiving technology to receive first audio signal that microphone sends;
Second wireless receiving module adopts the wireless receiving technology to receive second audio signal that audio-frequence player device sends;
The audio frequency synthesis module synthesizes processing to described first audio signal and described second audio signal, obtains the 3rd audio signal;
Audio output interface is exported described the 3rd audio signal.
13. method of work according to claim 12 is characterized in that, also comprises:
The audio processing module is carried out the audio processing to described first audio signal, exports the 4th audio signal;
Described audio frequency synthesis module synthesizes processing to described second audio signal and described the 4th audio signal, obtains the 3rd audio signal.
14. method of work according to claim 12, it is characterized in that described first wireless receiving module comprises: at least one in a Wi-Fi receiving element, a 2.4G radio receiving unit, the first FM reception unit and the 5.8G radio receiving unit;
Described second wireless receiving module comprises: at least one in the 2nd Wi-Fi receiving element, the 2nd 2.4G radio receiving unit, the second FM reception unit and the 2nd 5.8G radio receiving unit.
15. method of work according to claim 14 is characterized in that, the quantity of described microphone is more than or equal to 1.
16. the method for work of an ANTENN AUDIO player is characterized in that, comprising:
First wireless receiving module adopts the wireless receiving technology to receive first audio signal that microphone sends;
Second wireless receiving module adopts the wireless receiving technology to receive second audio signal that audio-frequence player device sends;
The audio frequency synthesis module synthesizes processing to described first audio signal and described second audio signal, obtains the 3rd audio signal;
Loud speaker changes described the 3rd audio signal into sound.
17. method of work according to claim 16 is characterized in that, also comprises:
The audio processing module is carried out the audio processing to described first audio signal, exports the 4th audio signal;
Described audio frequency synthesis module synthesizes processing to described second audio signal and described the 4th audio signal, obtains the 3rd audio signal.
18. method of work according to claim 16, it is characterized in that described first wireless receiving module comprises: at least one in a Wi-Fi receiving element, a 2.4G radio receiving unit, the first FM reception unit and the 5.8G radio receiving unit;
Described second wireless receiving module comprises: at least one in the 2nd Wi-Fi receiving element, the 2nd 2.4G radio receiving unit, the second FM reception unit and the 2nd 5.8G radio receiving unit.
19. method of work according to claim 18 is characterized in that, the quantity of described microphone is more than or equal to 1.
CN2013101700622A 2013-05-09 2013-05-09 Wireless audio processing equipment, wireless audio player and working method thereof Pending CN103237282A (en)

Priority Applications (3)

Application Number Priority Date Filing Date Title
CN2013101700622A CN103237282A (en) 2013-05-09 2013-05-09 Wireless audio processing equipment, wireless audio player and working method thereof
US14/889,841 US9792917B2 (en) 2013-05-09 2014-05-08 Audio processing device and method and electro-acoustic converting device and method
PCT/CN2014/077021 WO2014180317A1 (en) 2013-05-09 2014-05-08 Audio processing device and method and electro-acoustic converting device and method

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2013101700622A CN103237282A (en) 2013-05-09 2013-05-09 Wireless audio processing equipment, wireless audio player and working method thereof

Publications (1)

Publication Number Publication Date
CN103237282A true CN103237282A (en) 2013-08-07

Family

ID=48885293

Family Applications (1)

Application Number Title Priority Date Filing Date
CN2013101700622A Pending CN103237282A (en) 2013-05-09 2013-05-09 Wireless audio processing equipment, wireless audio player and working method thereof

Country Status (1)

Country Link
CN (1) CN103237282A (en)

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103794200A (en) * 2014-01-27 2014-05-14 福建海媚数码科技有限公司 Portable karaoke device capable of achieving audio access based on WIFI
CN104700839A (en) * 2015-02-26 2015-06-10 深圳市中兴移动通信有限公司 Method and device for collecting multichannel sound, cellphone and system
CN104967960A (en) * 2015-03-25 2015-10-07 腾讯科技(深圳)有限公司 Voice data processing method, and voice data processing method and system in game live broadcasting
CN105338451A (en) * 2015-11-26 2016-02-17 宁波柏人艾电子有限公司 Control circuit of loudspeaker box
CN105516854A (en) * 2015-11-24 2016-04-20 宁波柏人艾电子有限公司 Signal processing circuit for loudspeaker box
WO2017015942A1 (en) * 2015-07-30 2017-02-02 张阳 Short-distance wireless microphone data transmission method and system
CN109905790A (en) * 2019-04-11 2019-06-18 上海渐华科技发展有限公司 A kind of portable device for singing function with KARAOKE
WO2019148424A1 (en) * 2018-02-01 2019-08-08 捷永广建电子(深圳)有限公司 Wireless microphone

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20090217805A1 (en) * 2005-12-21 2009-09-03 Lg Electronics Inc. Music generating device and operating method thereof
CN102074226A (en) * 2009-11-24 2011-05-25 旭达电脑(昆山)有限公司 Method and device for implementing karaoke scoring function by portable electronic device
CN202455489U (en) * 2011-12-22 2012-09-26 曹木群 Wireless loudspeaker box and system thereof
CN202551269U (en) * 2012-03-16 2012-11-21 深圳市旭博科技有限公司 Multifunctional audible device externally connected with mobile phone

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20090217805A1 (en) * 2005-12-21 2009-09-03 Lg Electronics Inc. Music generating device and operating method thereof
CN102074226A (en) * 2009-11-24 2011-05-25 旭达电脑(昆山)有限公司 Method and device for implementing karaoke scoring function by portable electronic device
CN202455489U (en) * 2011-12-22 2012-09-26 曹木群 Wireless loudspeaker box and system thereof
CN202551269U (en) * 2012-03-16 2012-11-21 深圳市旭博科技有限公司 Multifunctional audible device externally connected with mobile phone

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103794200A (en) * 2014-01-27 2014-05-14 福建海媚数码科技有限公司 Portable karaoke device capable of achieving audio access based on WIFI
CN104700839A (en) * 2015-02-26 2015-06-10 深圳市中兴移动通信有限公司 Method and device for collecting multichannel sound, cellphone and system
CN104700839B (en) * 2015-02-26 2016-03-23 深圳市中兴移动通信有限公司 The method that multi-channel sound gathers, device, mobile phone and system
CN104967960A (en) * 2015-03-25 2015-10-07 腾讯科技(深圳)有限公司 Voice data processing method, and voice data processing method and system in game live broadcasting
CN104967960B (en) * 2015-03-25 2018-03-20 腾讯科技(深圳)有限公司 Voice data processing method and system during voice data processing method, game are live
WO2017015942A1 (en) * 2015-07-30 2017-02-02 张阳 Short-distance wireless microphone data transmission method and system
CN105516854A (en) * 2015-11-24 2016-04-20 宁波柏人艾电子有限公司 Signal processing circuit for loudspeaker box
CN105338451A (en) * 2015-11-26 2016-02-17 宁波柏人艾电子有限公司 Control circuit of loudspeaker box
WO2019148424A1 (en) * 2018-02-01 2019-08-08 捷永广建电子(深圳)有限公司 Wireless microphone
CN109905790A (en) * 2019-04-11 2019-06-18 上海渐华科技发展有限公司 A kind of portable device for singing function with KARAOKE

Similar Documents

Publication Publication Date Title
CN103237282A (en) Wireless audio processing equipment, wireless audio player and working method thereof
CN203313386U (en) Wireless audio processing equipment, wireless audio player, household karaoke system
EP2706662A2 (en) System and method for remotely controlling audio equipment
CN102984620B (en) Sound equipment
CN105096976B (en) A kind of audio system for controlling DSP with bluetooth approach by intelligent APP
CN202310099U (en) Wireless sounder and system for playing audio through same
US10966019B2 (en) Audio signal processing device and sound box
CN105208189B (en) Audio-frequency processing method and mobile terminal
CN109076280A (en) Earphone system customizable by a user
CN107633849A (en) Bluetooth equipment method for regulation of sound volume, equipment and computer-readable recording medium
CN203747954U (en) Microphone and audio transmission system
CN103200480A (en) Headset and working method thereof
KR102662234B1 (en) A Bluetooth speaker configured to not only produce sound but also operate as both a sink and a source simultaneously.
CN205622822U (en) Two bluetooth speaker
CN203279140U (en) Sound equipment
CN203313365U (en) Wireless earphone mic
CN203181164U (en) A handset
CN104506588B (en) A kind of method and device for the mobile rehearsal for realizing band
CN103731710A (en) Multimedia system
CN107645721A (en) Bluetooth equipment method for regulation of sound volume, equipment and computer-readable recording medium
CN107424617A (en) A kind of multimedia-data procession device and method
CN103281645A (en) Wireless headset and working method thereof
US9792917B2 (en) Audio processing device and method and electro-acoustic converting device and method
KR20080085376A (en) Method and apparatus for function for audio mixing and adding sound effect in audio data using bluetooth digital audio player
CN212034318U (en) Wireless karaoke earphone and wireless karaoke earphone set

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C02 Deemed withdrawal of patent application after publication (patent law 2001)
WD01 Invention patent application deemed withdrawn after publication

Application publication date: 20130807