CN101711021B - Mobile terminal - Google Patents

Abstract

The invention provides a mobile terminal and a corresponding communication method. The mobile terminal comprises a voice receiving module, a voice output module and at least two communication modules. Each communication module is communicated with different subscribers at the same time. The mobile terminal also comprises an input control circuit and an output control circuit, wherein the input control circuit is used for synthesizing voice data of each subscriber received by different communication modules and transmitting the voice data to the voice receiving module; and the output control circuit is used for synthesizing voice data of netusers acquired by the voice output module and voice data of the subscribers received by a non-target communication module and transmitting the voice data to a target communication module, and the voice data is transmitted to the corresponding subscribers through the target communication module. The mobile terminal has the function of conference call.

Description

A kind of mobile terminal

Technical field

The present invention relates to a kind of mobile terminal, particularly relate to a kind of mobile phone with MPTY function.

Background technology

Along with the development of science and technology, communication science and technology is maked rapid progress, and mobile terminal is widely used in daily life and study by people, and dual-SIM-card dual-standby mobile terminal also produces thereupon.

Fig. 1 shows the structure chart of existing dual-SIM-card dual-standby mobile terminal, it comprises first communication module 101, second communication module 102, first diverter switch 103, second diverter switch 104, receiver 105 and microphone 106, wherein, first communication module 101, second communication module 102 include radio-frequency module and baseband module, the former has the functions such as radio-frequency receiving-transmitting, power combing, power amplification, and the latter is responsible for signal transacting and protocol processes; The mobile communications network that first communication module 101, second communication module 102 are corresponding respective, as any one in GSM, CDMA, WCDMA, PHS, 3G network.When carrying out mobile communication business, user first must select the mobile communications network wanting to use, and then could perform related service by the communication module of corresponding network.Such as, the corresponding GSM network of first communication module 101, the corresponding cdma network of second communication module 102, then user is when using GSM network and first user to carry out mobile communication business, described first diverter switch 103 is needed to switch to first communication module, to send the speech data of first user to receiver 105; Meanwhile, described second diverter switch 104 is switched to first communication module, sends first user to the speech data play by microphone.In communication process, if receive the calling of the second user by cdma network, need respectively described first diverter switch 103, second diverter switch 104 to be switched to second communication module, also namely only have close with first user communication service, could communicate with the second user.So when only having a set of input-output apparatus (receiver 105/ microphone 106), existing dual-SIM-card dual-standby mobile terminal can only communicate with a user based on a communication module simultaneously.

In realistic communication process, because the reasons such as videoconference also often there will be the needs needing Three-Way Calling or MPTY.Existing MPTY mostly depends on the service that Virtual network operator provides, and the main body of realization is the switch of operator, so the quantity of carrying out MPTY can be subject to the restriction of the technical elements of the network switch simultaneously; In addition, if local operator does not provide this service, or the network switch breaks down, or operator closes this service, and MPTY just cannot realize.

In a word, the technical problem needing those skilled in the art urgently to solve is exactly: how can overcome existing mobile terminal can only communicate with a user based on a communication module simultaneously, and existing MPTY depends on the present situation of operator, provide a kind of mobile terminal with MPTY function.

Summary of the invention

Simultaneously technical problem to be solved by this invention can only communicate with a user based on a communication module based on existing mobile terminal, and existing MPTY depends on the present situation of operator, provide a kind of mobile terminal with MPTY function.

In order to solve the problem, the invention discloses a kind of mobile terminal, comprising speech reception module, voice output module, and, at least two communication modules, each communication module communicates with different user simultaneously, and described mobile terminal also comprises:

Input control circuit, for the synthesis of the speech data of each user that different communication module receives, and is sent to speech reception module;

Output control circuit, for the speech data of the local user by voice output module acquires, the user voice data received with non-targeted communication module is synthesized, and is sent to destinations traffic module, sends to respective user by destinations traffic module.

Preferably, communicated by first communication module at local user with first user, time simultaneously by second communication module and the second telex network, described output control circuit comprises the first control module and the second control module;

Described first control module is used for the speech data of the local user of voice output module acquires, and the speech data of the second user received with second communication module synthesizes, and is sent to first communication module; Described second communication module is non-targeted communication module, and described first communication module is destinations traffic module;

Described second control module is used for the speech data of the local user of voice output module acquires, and the speech data of the first user received with first communication module synthesizes, and is sent to second communication module; Described first communication module is non-targeted communication module, and described second communication module is destinations traffic module.

Preferably, described input control circuit the first VODER of comprising the first switching circuit be connected with first communication module, the second switch circuit be connected with second communication module and being connected with speech reception module;

Described first switching circuit receives the speech data of first user when closed, and described second switch circuit receives the speech data of the second user when closed; Described first VODER is for the synthesis of the speech data of described first user and the second user.

Preferably, the first control module of described output control circuit comprises the 3rd switching circuit and the second VODER, and wherein, described 3rd switching circuit is connected with second communication module; Described second VODER is connected with first communication module; Described 3rd switching circuit receives the speech data of the second user when closed; Described second VODER, for the speech data by local user, synthesizes with the speech data of the second user;

Second control module of described output control circuit comprises the 4th switching circuit and the 3rd VODER, and wherein, described 4th switching circuit is connected with first communication module; Described 3rd VODER is connected with second communication module;

Described 4th switching circuit receives the speech data of first user when closed; Described 3rd VODER, for the speech data by local user, synthesizes with the speech data of first user.

Preferably, described first switching circuit stops the speech data receiving first user when disconnecting; Described second switch circuit stops the speech data of reception second user when disconnecting.

Preferably, described 3rd switching circuit stops the speech data of reception second user when disconnecting; Described 4th switching circuit stops the speech data receiving first user when disconnecting.

Preferably, the closed and disconnection of described first switching circuit, second switch circuit, the 3rd switching circuit, the 4th switching circuit is controlled by enable signal, and described enable signal operates triggering by local user.

Preferably, described first VODER, the second VODER, the 3rd VODER are electric capacity VODER.

The invention also discloses a kind of communication means of mobile terminal, described mobile terminal comprises first communication module and second communication module, described method comprises local user by first communication module to first user initiating communication, simultaneously by second communication module to second user's initiating communication;

In communication process, first communication module and second communication module receive the speech data of first user and the second user respectively, after synthesis, send to local user; And, speech data warp after synthesis of local user and first user is sent to the second user by second communication module, meanwhile, speech data warp after synthesis of local user and the second user is sent to first user by first communication module.

Preferably, described method also comprises:

The communication of unlatching or closedown and first user and/or the second user is operated according to local user.

Compared with prior art, the present invention has the following advantages:

When communicating with multiple user based on multiple communication module simultaneously, the speech data of the different user that different communication module receives synthesizes by input control circuit, and the speech data after synthesis is sent to speech reception module; Output control circuit is by the speech data of the local user of voice output module acquires, the user voice data received with non-targeted communication module is synthesized, and destinations traffic module is sent to described in the voice after synthesis, send to corresponding targeted customer by destinations traffic module.Speech reception module due to the machine have received the speech data of the different user of synthesis, targeted customer have received the voice of local user and other non-targeted user, therefore, without the need to depending on operator, the speech data of multiple user can in the mobile terminal of the present invention with multiple communication module transport communication, realize unrestricted MPTY;

Moreover local user is by triggering or close the corresponding enable signal of a certain user, and just can set up or terminate the communication with this user, this mobile terminal is simple to operate, can be user-friendly to.

Accompanying drawing explanation

Fig. 1 is the structure chart of existing dual-SIM-card dual-standby mobile terminal;

Fig. 2 is the structure chart of a kind of mobile terminal embodiment 1 of the present invention;

Fig. 3 is the structure chart of a kind of input control circuit of the present invention;

Fig. 4 is the structure chart of a kind of output control circuit of the present invention;

Fig. 5 is the structure chart of a kind of mobile terminal embodiment 2 of the present invention;

Fig. 6 is the structure chart of a kind of input control circuit of the present invention;

Fig. 7 is the structure chart of the first control module of a kind of output control circuit of the present invention;

Fig. 8 is the flow chart of a kind of mobile terminal communication method embodiment of the present invention.

Embodiment

For enabling above-mentioned purpose of the present invention, feature and advantage become apparent more, and below in conjunction with the drawings and specific embodiments, the present invention is further detailed explanation.

With reference to Fig. 2, show the structure chart of a kind of mobile terminal embodiment 1 of the present invention, described mobile terminal can comprise speech reception module 201, voice output module 202, first communication module 203, second communication module 204, wherein, first communication module 101, second communication module 102 include radio-frequency module and baseband module, the former is for sending and receiving speech data, and the latter is for the treatment of speech data; Local user is communicated with first user by first communication module 203, and simultaneously by second communication module 204 and the second telex network, described mobile terminal can also comprise:

Input control circuit 205, for the synthesis of the speech data of each user that first communication module 203 and second communication module 204 receive, and is sent to speech reception module 201;

Output control circuit 206, for the speech data of local user voice output module 202 gathered, the user voice data received with non-targeted communication module is synthesized, and is sent to destinations traffic module, sends to respective user by destinations traffic module; Such as, when first communication module 203 is destinations traffic module, then second communication module 204 is non-targeted communication module.

In one preferred embodiment of the invention, described input control circuit 205 first VODER that can comprise the first switching circuit be connected with first communication module 203, the second switch circuit be connected with second communication module 204 and be connected with speech reception module 201; Described first switching circuit receives the speech data of first user when closed, and described second switch circuit receives the speech data of the second user when closed; Described first VODER is for the synthesis of the speech data of described first user and the second user.

With reference to figure 3, show the structure chart of a kind of input control circuit of the present invention, wherein, single-pole single-throw switch (SPST) 301 by enable signal SPK1EN control can realize the function of described first switching circuit, single-pole single-throw switch (SPST) 302 by enable signal SPK2 EN control can realize the function of described second switch circuit, audio frequency amplifier (PA, Power Amplifier) 303 can realize the function of described first VODER.

The course of work of described input control circuit is: local user can trigger enable signal SPK1 EN and SPK2 EN by operation, control corresponding switch to close, the speech data SPK1 of first user and the speech data SPK2 of the second user enters audio frequency amplifier 303 respectively by respective switch 301 and 302, export the speech data SPK OUT after synthesis on speech reception module 201 by audio frequency amplifier 303, namely local user can hear the sound of first user and the second user simultaneously.

In another preferred embodiment of the present invention, described output control circuit 206 can comprise the first control module and the second control module;

When described first communication module 203 is destinations traffic module, then described second communication module 204 is non-targeted communication module, in this case, described first control module is used for the speech data of local user voice output module 202 gathered, the speech data of the second user received with second communication module 204 synthesizes, and is sent to first communication module 203;

When second communication module 204 is destinations traffic module, then first communication module 203 is non-targeted communication module, in this case, described second control module is used for the speech data of local user voice output module 202 gathered, the speech data of the first user received with first communication module 203 synthesizes, and is sent to second communication module 204.

More preferred, the first control module of described output control circuit may further include the 3rd switching circuit and the second VODER, and wherein, described 3rd switching circuit is connected with second communication module; Described second VODER is connected with first communication module; Described 3rd switching circuit receives the speech data of the second user when closed; Described second VODER, for the speech data by local user, synthesizes with the speech data of the second user;

Second control module of described output control circuit may further include the 4th switching circuit and the 3rd VODER, and wherein, described 4th switching circuit is connected with first communication module; Described 3rd VODER is connected with second communication module; Described 4th switching circuit receives the speech data of first user when closed; Described 3rd VODER, for the speech data by local user, synthesizes with the speech data of described first user.

With reference to figure 4, show the structure chart of a kind of output control circuit of the present invention, wherein, in the first control module 401, single-pole single-throw switch (SPST) 411 by enable signal MIC1 EN control can realize the function of described 3rd switching circuit, and electric capacity VODER 412 can realize the function of described second VODER; In the second control module 402, the single-pole single-throw switch (SPST) 421 by enable signal MIC2 EN control can realize the function of described 4th switching circuit, and electric capacity VODER 422 can realize the function of described 3rd VODER.

The course of work of described output control circuit is: local user can trigger enable signal MIC1 EN by operation, control corresponding switch 411 to close, the speech data SPK2 of the second user enters electric capacity VODER 412 by switch 411 and synthesizes with the speech data MIC IN of local user, speech data after described synthesis is exported to first communication module, corresponding communication mode is passed through (as GSM by first communication module, CDMA, WCDMA, PHS, any one in 3G network) send to the earpiece MIC1 IN of first user, namely first user can hear the sound of local user and the second user simultaneously, similarly, local user also can trigger enable signal MIC2 EN by operation, control corresponding switch 421 to close, the speech data SPK1 of first user enters electric capacity VODER 422 by switch 421 and synthesizes with the speech data MIC IN of local user, speech data after described synthesis is exported to second communication module, corresponding communication mode is passed through (as GSM by second communication module, CDMA, WCDMA, PHS, any one in 3G network) send to the earpiece MIC2 IN of the second user, namely the second user can hear the sound of local user and first user simultaneously.

Be appreciated that local user terminate with the communication of a certain user after, can by operation close corresponding enable signal.Such as, after terminating the communication with first user, for input control circuit, SPK1 EN can be closed by operation, stop the speech data receiving first user; For output control circuit, MIC1 EN can be closed by operation, stop the speech data of reception second user.

Certainly, the mode of above-mentioned employing audio frequency amplifier and electric capacity VODER is only used as example, and those skilled in the art adopt any one synthesizer to be feasible as required; In addition, switching circuit of the present invention is also not limited to the single-pole single-throw switch (SPST) described in embodiment, as long as identical switching function can be realized, the present invention to concrete electronic device without the need to being limited.

With reference to Fig. 5, show the structure chart of a kind of mobile terminal embodiment 2 of the present invention, described mobile terminal can comprise speech reception module 501, voice output module 502, first communication module 503, second communication module 504, third communication module 505, wherein, first communication module 503, second communication module 504 and third communication module 505 include radio-frequency module and baseband module, the former is for sending and receiving speech data, and the latter is for the treatment of speech data; Local user is communicated with first user by first communication module 503, and simultaneously by second communication module 504 and the second telex network, and by third communication module 505 and the 3rd telex network, described mobile terminal can also comprise:

Input control circuit 506, for the synthesis of the speech data of each user that different communication module receives, and is sent to speech reception module 501;

Output control circuit 507, for the speech data of local user voice output module 502 gathered, the user voice data received with non-targeted communication module is synthesized, and is sent to destinations traffic module, sends to respective user by destinations traffic module; Such as, when first communication module 503 is destinations traffic module, then second communication module 504 and third communication module 505 are non-targeted communication module.

In one preferred embodiment of the invention, described input control circuit 506 first VODER that can comprise the first switching circuit be connected with first communication module 503, the second switch circuit be connected with second communication module 504, the 3rd switching circuit be connected with third communication module 505 and be connected with speech reception module 501; Described first switching circuit receives the speech data of first user when closed, and described second switch circuit receives the speech data of the second user when closed, and described 3rd switching circuit receives the speech data of the 3rd user when closed; Described first VODER is for the synthesis of the speech data of described first user, the second user and the 3rd user.

With reference to figure 6, show the structure chart of a kind of input control circuit of the present invention, wherein, single-pole single-throw switch (SPST) 601 by enable signal SPK1 EN control can realize the function of described first switching circuit, single-pole single-throw switch (SPST) 602 by enable signal SPK2 EN control can realize the function of described second switch circuit, single-pole single-throw switch (SPST) 603 by enable signal SPK3 EN control can realize the function of described 3rd switching circuit, audio frequency amplifier (PA, Power Amplifier) 604 can realize the function of described first VODER.

The course of work of described input control circuit is: local user can trigger enable signal SPK1 EN by operation, SPK2 EN and SPK3 EN, control corresponding switch to close, the speech data SPK1 of first user, the speech data SPK2 of the second user and the speech data SPK3 of the 3rd user is respectively by respective switch 601, 602 and 603 enter audio frequency amplifier 604, the speech data SPK OUT after synthesis is exported on speech reception module 501 by audio frequency amplifier 604, namely local user can hear first user simultaneously, the sound of the second user and the 3rd user.

In another preferred embodiment of the present invention, described output control circuit 507 can comprise the first control module, the second control module and the 3rd control module;

When first communication module 503 is destinations traffic module, then second communication module 504 and third communication module 505 are non-targeted communication module, in this case, described first control module is used for the speech data of local user voice output module 502 gathered, the speech data of the second user received with second communication module 504, and the speech data of the 3rd user of third communication module 505 reception synthesizes, and be sent to first communication module 503;

When second communication module 504 is destinations traffic module, then first communication module 503 and third communication module 505 are non-targeted communication module, in this case, described second control module is used for the speech data of local user voice output module 502 gathered, the speech data of the first user received with first communication module 503, and the speech data of the 3rd user of third communication module 505 reception synthesizes, and be sent to second communication module 504;

When third communication module 505 is destinations traffic module, then first communication module 503 and second communication module 504 are non-targeted communication module, in this case, described 3rd control module is used for the speech data of local user voice output module 502 gathered, the speech data of the first user received with first communication module 503, and the speech data of the second user of second communication module 504 reception synthesizes, and be sent to third communication module 505;

More preferred, the first control module of described output control circuit may further include the 4th switching circuit, the 5th switching circuit and the second VODER, and wherein, described 4th switching circuit is connected with second communication module; Described 5th switching circuit is connected with third communication module; Described second VODER is connected with first communication module; Described 4th switching circuit receives the speech data of the second user when closed; Described 5th switching circuit receives the speech data of the 3rd user when closed; Described second VODER, for the speech data by local user, synthesizes with the speech data of the second user and the 3rd user;

Second control module of described output control circuit may further include the 6th switching circuit, the 7th switching circuit and the 3rd VODER, and wherein, described 6th switching circuit is connected with first communication module; Described 7th switching circuit is connected with third communication module; Described three VODER are connected with second communication module; Described 6th switching circuit receives the speech data of first user when closed; Described 7th switching circuit receives the speech data of the 3rd user when closed; Described 3rd VODER, for the speech data by local user, synthesizes with the speech data of first user and the 3rd user;

3rd control module of described output control circuit may further include the 8th switching circuit, the 9th switching circuit and the 4th VODER, and wherein, described 8th switching circuit is connected with first communication module; Described 9th switching circuit is connected with second communication module; Described 4th VODER is connected with third communication module; Described 8th switching circuit receives the speech data of first user when closed; Described 9th switching circuit receives the speech data of the second user when closed; Described 4th VODER, for the speech data by local user, synthesizes with the speech data of first user and the second user.

With reference to figure 7, show the structure chart of the first control module of a kind of output control circuit of the present invention, wherein, single-pole single-throw switch (SPST) 701 by enable signal MIC1 EN control can realize the function of described 4th switching circuit, single-pole single-throw switch (SPST) 702 by enable signal MIC1 EN control can realize the function of described 5th switching circuit, and electric capacity VODER 703 can realize the function of described second VODER.

The course of work of described first control module is: local user can trigger enable signal MIC1 EN by operation, control corresponding switch 701 and 702 to close, the speech data SPK2 of the second user and the speech data SPK3 of the 3rd user enters electric capacity VODER 703 respectively by switch 701 and 702 and synthesizes with the speech data MIC IN of local user, speech data after described synthesis is exported to first communication module, corresponding communication mode is passed through (as GSM by first communication module, CDMA, WCDMA, PHS, any one in 3G network) send to the earpiece MIC1 IN of first user, namely first user can hear local user simultaneously, the sound of the second user and the 3rd user.

Because the structure of the second control module, the 3rd control module is similar to the first control module with the course of work, just do not repeat one by one here.

Be appreciated that local user terminate with the communication of a certain user after, can by operation close corresponding enable signal.Such as, after terminating the communication with first user, for input control circuit, SPK1 EN can be closed by operation, stop the speech data receiving first user; For output control circuit, MIC1 EN can be closed by operation, stop the speech data of reception second user and the 3rd user.

Along with the development of mechanics of communication, communications market enters brand-new developing stage-3G epoch, be understandable that, the communication module of mobile terminal of the present invention is not limited to existing GSM, CDMA, WCDMA, PHS, 3G network, it is also applicable to the mobile network of a new generation, as 4G, 5G etc.; The mobile terminal conversed with the machine can for mobile phone of the present invention, also can be regular handset, the present invention to this without the need to limiting; In addition, the mobile terminal that the present invention has MPTY function is not limited to Three-Way Calling, four directions call, the speech data of different communication network and different mobile terminal can in the mobile terminal of the present invention with multiple communication module transport communication, realize unrestricted MPTY.

With reference to figure 8, show the flow chart of a kind of mobile terminal communication method embodiment of the present invention, described mobile terminal can comprise first communication module and second communication module, and described method specifically can comprise:

Step 801, local user by first communication module to first user initiating communication, simultaneously by second communication module to second user's initiating communication;

Step 802, in communication process, first communication module and second communication module receive the speech data of first user and the second user respectively, after synthesis, send to local user; And, speech data warp after synthesis of local user and first user is sent to the second user by second communication module, meanwhile, speech data warp after synthesis of local user and the second user is sent to first user by first communication module.

In practice, the communication of unlatching or closedown and first user and/or the second user can be operated according to local user.

For embodiment of the method, due to the device embodiment basic simlarity shown in itself and Fig. 2, so description is fairly simple, relevant part illustrates see the part of device embodiment.

Above to a kind of mobile terminal provided by the present invention, and a kind of communication means of mobile terminal is described in detail, apply specific case herein to set forth principle of the present invention and execution mode, the explanation of above embodiment just understands method of the present invention and core concept thereof for helping; Meanwhile, for one of ordinary skill in the art, according to thought of the present invention, all will change in specific embodiments and applications, in sum, this description should not be construed as limitation of the present invention.

Claims (10)

1. a mobile terminal, is characterized in that, comprises speech reception module, voice output module, and, at least two communication modules, each communication module communicates with different user simultaneously, and described mobile terminal also comprises:

Input control circuit, for the synthesis of the speech data of each user that different communication module receives, and is sent to speech reception module;

Output control circuit, for the speech data of the local user by voice output module acquires, the user voice data received with non-targeted communication module is synthesized, and is sent to destinations traffic module, sends to respective user by destinations traffic module;

Wherein, communicated with first user by first communication module at local user, time simultaneously by second communication module and the second telex network,

The first VODER that described input control circuit comprises the first switching circuit be connected with first communication module, the second switch circuit be connected with second communication module and is connected with speech reception module;

Described output control circuit comprises the first control module and the second control module;

Described first control module comprises the 3rd switching circuit and the second VODER, and wherein, described 3rd switching circuit is connected with second communication module; Described second VODER is connected with first communication module;

Described second control module comprises the 4th switching circuit and the 3rd VODER, and wherein, described 4th switching circuit is connected with first communication module; Described 3rd VODER is connected with second communication module.

2. mobile terminal as claimed in claim 1, it is characterized in that, described first control module is used for the speech data of the local user of voice output module acquires, and the speech data of the second user received with second communication module synthesizes, and is sent to first communication module; Described second communication module is non-targeted communication module, and described first communication module is destinations traffic module;

Described second control module is used for the speech data of the local user of voice output module acquires, and the speech data of the first user received with first communication module synthesizes, and is sent to second communication module; Described first communication module is non-targeted communication module, and described second communication module is destinations traffic module.

3. mobile terminal as claimed in claim 2, it is characterized in that, described first switching circuit receives the speech data of first user when closed, and described second switch circuit receives the speech data of the second user when closed; Described first VODER is for the synthesis of the speech data of described first user and the second user.

4. mobile terminal as claimed in claim 2, it is characterized in that, described 3rd switching circuit receives the speech data of the second user when closed; Described second VODER, for the speech data by local user, synthesizes with the speech data of the second user;

Described 4th switching circuit receives the speech data of first user when closed; Described 3rd VODER, for the speech data by local user, synthesizes with the speech data of first user.

5. mobile terminal as claimed in claim 3, is characterized in that, described first switching circuit stops the speech data receiving first user when disconnecting; Described second switch circuit stops the speech data of reception second user when disconnecting.

6. mobile terminal as claimed in claim 4, is characterized in that, described 3rd switching circuit stops the speech data of reception second user when disconnecting; Described 4th switching circuit stops the speech data receiving first user when disconnecting.

7. the mobile terminal as described in claim 5 or 6, is characterized in that, the closed and disconnection of described first switching circuit, second switch circuit, the 3rd switching circuit, the 4th switching circuit is controlled by enable signal, and described enable signal operates triggering by local user.

8. the mobile terminal as described in claim 3 or 4, is characterized in that, described first VODER, the second VODER, the 3rd VODER are electric capacity VODER.

9. a communication means for mobile terminal, is characterized in that, described mobile terminal comprises first communication module, second communication module, input control circuit and output control circuit;

Wherein, described input control circuit the first VODER of comprising the first switching circuit be connected with first communication module, the second switch circuit be connected with second communication module and being connected with speech reception module; Wherein, described output control circuit comprises the first control module and the second control module; Described first control module comprises the 3rd switching circuit and the second VODER, and wherein, described 3rd switching circuit is connected with second communication module; Described second VODER is connected with first communication module; Described second control module comprises the 4th switching circuit and the 3rd VODER, and wherein, described 4th switching circuit is connected with first communication module; Described 3rd VODER is connected with second communication module;

Described method comprises local user by first communication module to first user initiating communication, simultaneously by second communication module to second user's initiating communication;

In communication process, first communication module and second communication module receive the speech data of first user and the second user respectively, after synthesis, send to local user; And, speech data warp after synthesis of local user and first user is sent to the second user by second communication module, meanwhile, speech data warp after synthesis of local user and the second user is sent to first user by first communication module.

10. method as claimed in claim 9, is characterized in that, also comprise:

The communication of unlatching or closedown and first user and/or the second user is operated according to local user.