CN109756933A - A kind of method and device for realizing low power loss communication - Google Patents

Abstract

The present invention discloses a kind of method and device for realizing low power loss communication, is related to the communications field.Method includes: that communication system receives the data transfer request that first terminal equipment is sent；When determination needs to start high speed transmission data mode, interim high-speed transfer channel is established between starting high speed transmission data mode, with first terminal equipment；Communication system sends response data to the first terminal equipment according to the data transfer request, and closing high-speed transmits data pattern；Wherein, the communication system keeps being in real-time low-power consumption on-line joining process mode always with the first terminal equipment.Using technical solution of the present invention, usually keep extremely low power consumption online and being capable of real-time perfoming low-speed data communication, start high speed transmission data mode when needing high-speed data communication to transmit, realize high speed data transfer, closing high-speed transmits data pattern after the pending data end of transmission, to substantially reduce the power consumption of equipment.

Description

A kind of method and device for realizing low power loss communication

Technical field

The present invention relates to the communications fields, and in particular to a kind of method and device for realizing low power loss communication.

Background technique

For narrowband wireless communication using NB-IO T and lora as representative, communication bandwidth is smaller, and transmission rate is slower, is not suitable for view The transmission application of the big datas such as frequency, but it is with long transmission distance, advantage low in energy consumption；Broadband wireless communications are with wlan and 4G It represents, communication band is roomy, and transmission rate is high, but transmission range is close, power consumption is relatively high, when in the battery powered situation of use Under, stand-by time is shorter.

In the prior art, it had not only been able to maintain extremely low operation and stand-by power consumption without a kind of communication mode, but also had had high Data transmission rate, and in actual application scenarios, the case where needing high speed continuous transmission data, are fewer and fewer, when more It needs low-speed communication to keep connection, high-speed communication is carried out according to request.

Summary of the invention

In order to solve the problems in the existing technology, the embodiment of the invention provides a kind of sides for realizing low power loss communication Method and device.

A method of realizing low power loss communication, comprising:

Communication system receives the data transfer request that first terminal equipment is sent；It needs to start high speed transmission data in determination When mode, interim high-speed transfer channel is established between starting high speed transmission data mode, with the first terminal equipment；

The communication system sends response data to the first terminal equipment according to the data transfer request, closes high Speed transmission data pattern；

Wherein, the communication system keeps being in real-time low-power consumption on-line joining process mould always with the first terminal equipment Formula.

A kind of device for realizing low power loss communication, comprising:

Receiving module, for receiving the data transfer request of first terminal equipment transmission；

Starting module receives data transfer request for receiving module and needs to start high speed transmission data mode in determination When, interim high-speed transfer channel is established between starting high speed transmission data mode, with first terminal equipment；

Sending module, the data transfer request for being received according to receiving module send response data to first terminal and set It is standby；

Closedown module, for closing starting module and establishing after sending module sends response data to first terminal equipment Interim high speed transmission data mode；

On-line joining process module is in real-time low-power consumption on-line joining process mode with first terminal equipment for keeping always.

The invention has the benefit that usually being protected the present invention provides a kind of method and device for realizing low power loss communication Hold extremely low power consumption it is online and can real-time perfoming low-speed data communication, when needing high-speed data communication to transmit, starting high speed is passed Transmission of data mode realizes high speed data transfer, and closing high-speed transmits data pattern after the pending data end of transmission, to substantially reduce The power consumption of equipment.

Detailed description of the invention

Illustrate the embodiment of the present invention or technical solution in the prior art in order to clearer, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with It obtains other drawings based on these drawings.

Fig. 1 is a kind of system schematic for the method for realizing low power loss communication provided by the invention；

Fig. 2 is a kind of flow chart of the method for realizing low power loss communication provided in the embodiment of the present invention one；

Fig. 3 is a kind of flow chart of the method for realizing low power loss communication provided in the embodiment of the present invention one；

Fig. 4 is a kind of flow chart of the method for realizing low power loss communication provided in the embodiment of the present invention two；

Fig. 5 is a kind of block diagram of the device for realizing low power loss communication provided in the embodiment of the present invention three.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

As shown in Figure 1, disclosing a kind of system schematic of method for realizing low power loss communication.First terminal equipment can be with It is that host computer either gateway etc. has the equipment for sending and/or transmitting data function；Communication system receives first terminal equipment The request of data sent, according to request of data to first terminal equipment returning response data；Wherein, communication system includes at least one A narrow band communication module and a broadband communicating module；Further, narrow band communication module is using NB-IO T and lora as generation Table, communication bandwidth is smaller, and transmission rate is slower；For broadband communicating module using WLAN and 4G as representative, communication band is roomy, transmission rate It is high；It should be noted that narrow band communication module and broadband communicating module can reside in same equipment, it is also possible to individually exist In different equipment, and these equipment are referred to as communication system；Method involved in each embodiment can refer to figure below 1。

Embodiment one

The present invention provides a kind of methods for realizing low power loss communication, as shown in Figure 2, comprising:

Step S1, communication system receives the data transfer request that first terminal equipment is sent；When needing to start high-speed transfer When data pattern, interim high-speed transfer channel is established between starting high speed transmission data mode, with first terminal equipment, executes step Rapid S2；

Step S2, communication system sends response data to first terminal equipment according to data transfer request, and closing high-speed passes Transmission of data mode；

In step S1- step S2, communication system and first terminal equipment are in real-time low-power consumption on-line joining process mode.

In the present embodiment, it needs to start high speed transmission data mode, specifically: the communication system is passed from the data Obtain data information in defeated request, according in the data information size of data and/or high-speed transfer mark judgement need open Dynamic high speed transmission data mode.

It further, further include preset data unique identification in data transfer request；

In the step S1 further include: the communication system obtains the preset data unique identification；

Communication system described in step S2 sends response data to the first terminal according to the data transfer request and sets It is standby specifically: the communication system sends the preset data unique identification and the number of responses according to the data transfer request According to the extremely first terminal equipment.

Further, before step S1 further include: the communication system establishes connection with the first terminal equipment, and will The configuration information of itself is sent to the first terminal equipment.

Specifically, communication system includes the first narrow band communication module and the first broadband communicating module, as shown in figure 3, method Include:

Step 101, first terminal equipment send data transfer request to the first narrow band communication module；

Step 102, the first narrow band communication module receive the data transfer request of first terminal equipment, judge whether that starting is high Speed transmission data pattern, is to start high speed transmission data mode, executes step 103；Otherwise it is sent according to data transfer request Response data is to first terminal equipment；

Specifically, start high speed transmission data mode specifically: first narrow band communication data bits the first broadband connections mould Block；

In the present embodiment, when the first narrow band communication module receives the data transfer request of first terminal equipment, first Narrow band communication module obtains data information from data transfer request；

In the present embodiment, data information includes size of data, high-speed transfer mark and preset data unique identification；

Specifically, judge whether start high speed transmission data mode specifically: according in data information size of data and/ Or high-speed transfer mark judges whether to start high speed transmission data mode.

Further, the first narrow band communication module obtains preset data unique identification from data information, and is waking up the After one broadband communicating module, preset data unique identification is sent to the first broadband communicating module；

Further, if without starting high speed transmission data mode, the first narrow band communication module if, passes according to data Defeated request sends response data and preset data unique identification to first terminal equipment；

In the present embodiment, before step 102, further includes: first terminal equipment and the first narrow band communication module are established and connected It connects, the configuration information of the first broadband communicating module is sent to first terminal equipment by the first narrow band communication module；

Step 103, the first broadband communicating module and first terminal equipment are established connection and are sent according to data transfer request Response data is to first terminal equipment；When data are sent completely, close the first broadband communicating module and enter dormant state；

Specifically, first terminal equipment is logical according to the configuration information of the first broadband communicating module got and the first broadband Letter module establishes connection；

In the present embodiment, the first broadband communicating module can be passed by the preset data unique identification received and according to data Defeated request sends response data to first terminal equipment；

In the present embodiment, communication system can also include: the second broadband communicating module；

Specifically, in the present embodiment, step 103 specifically:

Step 103-1, the first broadband communicating module obtains the configuration information of the second broadband communicating module, with the second broadband Communication module establishes connection, and response data is sent to the second broadband communicating module；

Step 103-2, response data is sent to first terminal equipment by the second broadband communicating module；When data have been sent Cheng Shi, the first broadband communicating module and the second broadband communicating module enter dormant state.

It specifically, can also include the configuration information of the second broadband communicating module in data transfer request；

Correspondingly, the first narrow band communication module obtains the configuration information of the second broadband communicating module；

After starting high speed transmission data mode in a step 102, before execution step 103 further include: the first narrow bandpass Believe that the configuration information of the second broadband communicating module is sent to the first broadband communicating module by module；First terminal equipment and second wide Band communication module establishes connection；

It should be noted that the second broadband communicating module can also be sent by the first Wideband module to first terminal equipment Response data；

It should also be noted that, in step 101- step 103, at the first narrow band communication module and first terminal equipment In real-time low-power consumption on-line joining process mode；

In the present embodiment, communication system can also include: the second narrow band communication module；

Correspondingly, step 102 specifically:

Step 102-1, the first narrow band communication module receives the data transfer request that first terminal equipment is sent, by data Transmission request is sent to the second narrow band communication module；

Step 102-2, the second narrow band communication module judges whether to start high speed transmission data mode, is to start high speed Data pattern is transmitted, step 103 is executed；Otherwise the second narrow band communication module sends response data to the according to data transfer request One terminal device；

Specifically, start high speed transmission data mode, specifically: second narrow band communication data bits the first broadband connections mould Block；

It should be noted that first terminal equipment can also directly be connected with the second narrowband module；

It should also be noted that, when the first narrow band communication module and first terminal equipment are in real-time low-power consumption on-line joining process When state, when the first narrow band communication module receives the request of the real-time data transmission from first terminal equipment, and judge to need When starting high speed transmission data mode, directly the first broadband communicating module of wake-up carries out Data Data real-time Transmission；

In the present embodiment, the equipment that first terminal equipment can also search achievable data transfer task in communication range As narrow band communication module and/or broadband communicating module；If the equipment for not searching achievable data transmission, by the data Transmission request is transmitted to the maximally related equipment of task, or display and requests failure information.

The present embodiment is given by taking electronic peephole viewer as an example and is illustrated, wherein electronic peephole viewer is communication system, and first terminal is set The standby mobile device that application program is housed for mobile phone etc.；Electronic peephole viewer includes that the first narrow band communication module and the first broadband are logical simultaneously Believe module；When the application program of mobile phone sends the request for obtaining the image that electronic peephole viewer acquires to electronic peephole viewer, electronic peephole viewer The first narrow band communication module receive request, open camera shoot photo, while open the first broadband communicating module, electronic cat The picture of shooting is sent to mobile phone by the first broadband communicating module by eye；After picture is sent completely, the first broadband connections is closed Module enters dormant state.

In the present embodiment, extremely low power consumption is kept by using the first narrow band communication module or the second narrow band communication module Online, and can real-time perfoming low-speed data communication, the first broadband communicating module is opened when needing high-speed data communication to transmit Or second Wideband module and establish connection, realizes high speed data transfer, high-speed transfer unit enters and stops after the pending data end of transmission Dormancy state, to substantially reduce the power consumption of equipment.

Embodiment two

The present invention provides a kind of methods for realizing low power loss communication, and wherein first terminal equipment includes simultaneously the first narrowband Communication module and the first broadband communicating module；Communication system includes the second narrow band communication module and the second broadband communicating module, the Two narrow band communication modules and the second broadband device can reside in same equipment, can also separately exist in different equipment In, these equipment are referred to as communication system；As shown in Figure 4, comprising:

Step 201, the first narrow band communication module and the second narrow band communication module establish connection；

In the present embodiment, one in first/second narrow band communication module, which is in, can find state, and the second/the first is narrow Band communication module can find that the first/second narrow band communication module of state establishes connection by search, with being in；The present embodiment with First narrow band communication module is in the state that can find, the second narrow band communication module is by searching for the first narrow band communication module Example.

The configuration information of first broadband communicating module is sent to the second narrow bandpass by step 202, the first narrow band communication module Believe module；

In the present embodiment, after the first narrow band communication module and the second narrow band communication module establish connection, the first narrowband The configuration information of first broadband communicating module is sent to the second narrow band communication module by communication module, and the second narrow band communication module will The configuration information of second broadband communicating module is sent to the first narrow band communication module；

For example, the first narrow band communication module can be by Wi-Fi module when the first broadband communicating module is Wi-Fi module SSID (abbreviation of Service Set Identifier, service set), password and IP configuration etc. information be sent to second Narrow band communication module is connected for the second broadband communicating module.

Step 203, when the first narrow band communication module to the second narrow band communication module send data when, judge whether need open Dynamic high speed transmission data mode, is to then follow the steps 205；It is no to then follow the steps 204；

Specifically, it before the first narrow band communication module sends data to the second narrow band communication module, first obtains and needs to send out The data information for sending data sends data information to the second narrow band communication module, and the first narrow band communication module judges whether to need Start high speed transmission data mode；If necessary to start high speed transmission data mode, step 205 is executed；If you do not need to starting High speed transmission data mode executes step 204；

In the present embodiment, data information includes size of data, high-speed transfer mark and preset data unique identification；

More specifically, the first narrow band communication module according in data information size of data and/or high-speed transfer mark sentence It is disconnected whether to start high speed transmission data mode；

In the present embodiment, similarly, the second narrow band communication module can be according in data information after receiving data information Size of data and/or high-speed transfer mark judge whether to start high speed transmission data mode；

Step 204, the first narrow band communication module send data to the second narrow band communication module；

Step 205, first the first broadband communicating module of narrow band communication data bits；

The configuration information of first broadband communicating module is sent to the second broadband and led to by step 206, the second narrow band communication module Believe module；

In the present embodiment, step 205- step 206 has no specific chronological order；

Step 207, the second broadband communicating module and the first broadband communicating module establish connection；

Specifically, the second broadband communicating module is according to the configuration information and the first broadband connections mould of the first broadband communicating module Block establishes connection；

Step 208, the first broadband communicating module send data to the second broadband communicating module；

Step 209, the first broadband communicating module data are sent completely, into dormant state；

In the present embodiment, the first broadband communicating module identifies that this data has been sent according to the end mark in data At.

Step 210, the second broadband communicating module data receiver are completed, into dormant state；

It should be noted that establishing connection from the first narrow band communication module and the second narrow band communication module in the present embodiment Afterwards, two narrow band communication modules are constantly in real-time low-power consumption on-line joining process mode.

It should also be noted that, when with the second narrow band communication module to be in real-time low-power consumption online for the first narrow band communication module When connection status, when the first narrow band communication module or the second narrow band communication module receive the real-time data transmission from host computer and ask When asking, and judgement wakes up the first broadband connections mould referring to step 205- step 210 when needing to start high speed transmission data mode Block and the second broadband communicating module；It specifically, include the connection of real-time data transmission in the data transfer request from host computer Information, the i.e. configuration information of the first broadband communicating module or the second broadband communicating module.

In the present embodiment, keep extremely low power consumption online by using narrow band communication module, and can real-time perfoming it is low Fast data communication opens broadband communicating module when needing high-speed data communication to transmit and establishes connection, realizes that data high-speed passes Defeated, high-speed transfer unit enters dormant state after the pending data end of transmission, to substantially reduce the power consumption of equipment.

Embodiment three

The present embodiment provides a kind of devices for realizing low power loss communication, as shown in figure 5, device includes:

Receiving module 301, for receiving the data transfer request of first terminal equipment transmission；

Starting module 302 receives data transfer request for receiving module 301 and needs to start high-speed transfer number in determination When according to mode, interim high-speed transfer channel is established between starting high speed transmission data mode, with first terminal equipment；

Sending module 303, the data transfer request for being received according to receiving module 301 send response data to first Terminal device；

Closedown module 304, for closing starting mould after sending module 303 sends response data to first terminal equipment The high speed transmission data mode that block 302 is established；

On-line joining process module 305 is in real-time low-power consumption on-line joining process mode with first terminal equipment for keeping always.

In the present embodiment, starting module 302 includes: acquiring unit and start unit；

Acquiring unit, for obtaining data information from data transfer request；

Start unit, the size of data and/or high-speed transfer mark in data information for being obtained according to acquiring unit Judgement needs to start high speed transmission data mode.

In the present embodiment, sending module 303, for sending response data and the transmission of the received data of receiving module 301 The preset data unique identification for including in request is to first terminal equipment.

In the present embodiment, device further includes first establishing link block；

First establishes link block, for establishing connection with first terminal equipment, and the configuration information of itself is sent to First terminal equipment.

Receiving module 301 is specially the first narrow band communication module；Sending module 303 is specially the first broadband communicating module；

Starting module 302, specifically for passing through the first narrow band communication when determination needs to start high speed transmission data mode The first broadband communicating module of data bits；

Closedown module 304 is specifically used for after transmission response data to the first terminal equipment of sending module 303, by the One narrow band communication module closes the first broadband communicating module and enters dormant state；

On-line joining process module 305, specifically for keeping locating always with first terminal equipment by the first narrow band communication module In real-time low-power consumption on-line joining process mode.

In the present embodiment, device further includes second establishing link block；

Second establishes link block, for establishing connection by the first narrow band communication module and first terminal equipment, first The configuration information of first broadband communicating module is sent to first terminal equipment by narrow band communication module；

Second establishes link block, is also used to first terminal equipment according to the configuration of the first broadband communicating module got Information and the first broadband communicating module establish broadband connection.

In the present embodiment, device further includes that the second broadband communicating module and third establish link block；

Third establishes link block, and the second broadband communicating module for being got by the first broadband communicating module is matched Confidence breath, establishes connection with the second broadband communicating module；

Sending module 303, specifically for response data is sent to first terminal equipment by the second broadband communicating module；

Closedown module 304 is specifically used for the closing the after sending module 303 sends response data to first terminal equipment One broadband communicating module and the second broadband communicating module enter dormant state.

Third establishes link block, is also used to first terminal equipment according to the configuration of the second broadband communicating module got Information and the second broadband communicating module establish broadband connection.

In the present embodiment, device further includes the second narrow band communication module；

Receiving module 301 is passed specifically for receiving the data that first terminal equipment is sent by the first narrow band communication module Defeated request, and data transfer request is sent to the second narrow band communication module；

Starting module 302, specifically for passing through the second narrow band communication when determination needs to start high speed transmission data mode The first broadband communicating module of data bits.

More than, it is merely preferred embodiments of the present invention, but scope of protection of the present invention is not limited thereto, it is any In the technical scope disclosed by the present invention, any changes or substitutions that can be easily thought of by those familiar with the art, all answers It is included within the scope of the present invention.Therefore, protection scope of the present invention should be subject to the protection scope in claims.

Claims (18)

1. a kind of method for realizing low power loss communication, which is characterized in that the described method includes:

Communication system receives the data transfer request that first terminal equipment is sent；Need to start high speed transmission data mode in determination When, interim high-speed transfer channel is established between starting high speed transmission data mode, with the first terminal equipment；

The communication system sends response data to the first terminal equipment according to the data transfer request, and closing high-speed passes Transmission of data mode；

Wherein, the communication system keeps being in real-time low-power consumption on-line joining process mode always with the first terminal equipment.

2. the method according to claim 1, wherein the determination needs to start high speed transmission data mode packet Include: the communication system obtains data information from the data transfer request, according to the size of data in the data information And/or high-speed transfer mark judgement needs to start high speed transmission data mode.

3. the method according to claim 1, wherein in the method:

It further include preset data unique identification in the data transfer request；

The communication system sends the preset data unique identification and the response data extremely according to the data transfer request The first terminal equipment.

4. the method according to claim 1, wherein the communication system receives the number that first terminal equipment is sent Before transmission request further include: the communication system and the first terminal equipment establish connection, and itself is matched confidence Breath is sent to the first terminal equipment.

5. the method according to claim 1, wherein the communication system include: the first narrow band communication module and First broadband communicating module；

The communication system receives the data transmission that the first terminal equipment is sent by the first narrow band communication module and asks It asks；When determination needs to start high speed transmission data mode, first broadband communicating module is waken up；

The communication system sends response data to institute according to the data transfer request by first broadband communicating module State first terminal equipment；When response data is sent completely, closing first broadband communicating module enters dormant state；

Wherein, the communication system keeps being in real always with the first terminal equipment by the first narrow band communication module When low-power consumption on-line joining process mode.

6. according to the method described in claim 5, it is characterized in that, in the method:

The communication system establishes connection by the first narrow band communication module and the first terminal equipment, and described first is narrow The configuration information of first broadband communicating module is sent to the first terminal equipment with communication module；

The configuration information and described first for first broadband communicating module that the first terminal equipment is got according to Broadband communicating module establishes broadband connection.

7. according to the method described in claim 5, it is characterized in that, the communication system further include: the second broadband communicating module；

The communication system obtains the configuration information of second broadband communicating module by first broadband communicating module, and Connection is established with second broadband communicating module, first broadband communicating module is sent according to the data transfer request to be rung Answer data to second broadband communicating module；The response data is sent to described first by second broadband communicating module Terminal device；When response data is sent completely, close first broadband communicating module and second broadband communicating module into Enter dormant state.

8. the method according to the description of claim 7 is characterized in that in the method:

It further include the configuration information of second broadband communicating module in the data transfer request；

The communication system obtains the configuration information of second broadband communicating module by the first narrow band communication module；

After waking up first broadband communicating module, the first narrow band communication module is by second broadband communicating module Configuration information is sent to first broadband communicating module；

The first terminal equipment and second broadband communicating module establish broadband connection.

9. according to the method described in claim 5, it is characterized in that, the communication system further include: the second narrow band communication module；

The communication system receives the data transmission that the first terminal equipment is sent by the first narrow band communication module and asks It asks, and the data transfer request is sent to the second narrow band communication module；It needs to start high speed transmission data in determination When mode, the first broadband communicating module described in the second narrow band communication data bits.

10. a kind of device for realizing low power loss communication, which is characterized in that described device includes:

Receiving module, for receiving the data transfer request of first terminal equipment transmission；

Starting module receives the data transfer request for the receiving module and needs to start high speed transmission data in determination When mode, interim high-speed transfer channel is established between starting high speed transmission data mode, with the first terminal equipment；

Sending module, the data transfer request for being received according to the receiving module send response data to first end End equipment；

Closedown module, for closing the high-speed transfer after sending module sends response data to the first terminal equipment Data pattern；

On-line joining process module is in real-time low-power consumption on-line joining process mode with the first terminal equipment for keeping always.

11. device according to claim 10, which is characterized in that the starting module includes: that acquiring unit and starting are single Member；

The acquiring unit, for obtaining data information from the data transfer request；

The start unit, the size of data and/or high-speed transfer in data information for being obtained according to the acquiring unit Mark judgement needs to start high speed transmission data mode.

12. device according to claim 10, which is characterized in that the sending module, for sending the response data With the preset data unique identification that includes in the received data transfer request of the receiving module to the first terminal equipment.

13. device according to claim 10, which is characterized in that described device further includes first establishing link block；

Described first establishes link block, for establishing connection with the first terminal equipment, and the configuration information of itself is sent out It send to the first terminal equipment.

14. device according to claim 10, which is characterized in that the receiving module is specially the first narrow band communication mould Block；The sending module is specially the first broadband communicating module；

The starting module, specifically for passing through first narrow bandpass when determination needs to start high speed transmission data mode Believe the first broadband communicating module described in data bits；

The closedown module is specifically used for after sending module sends response data to the first terminal equipment, by described First narrow band communication module closes first broadband communicating module and enters dormant state；

The on-line joining process module is specifically used for keeping beginning with the first terminal equipment by the first narrow band communication module It is in real-time low-power consumption on-line joining process mode eventually.

15. device according to claim 14, which is characterized in that described device further includes second establishing link block；

Described second establishes link block, for establishing connection by the first narrow band communication module and the first terminal equipment, The configuration information of first broadband communicating module is sent to the first terminal equipment by the first narrow band communication module；

Described second establishes link block, and it is logical to be also used to first broadband that the first terminal equipment is got according to The configuration information and first broadband communicating module for believing module establish broadband connection.

16. device according to claim 14, which is characterized in that described device further includes the second broadband communicating module and Three establish link block；

The third establishes link block, second broadband connections for being got by first broadband communicating module The configuration information of module establishes connection with second broadband communicating module；

The sending module, specifically for the response data is sent to the first terminal by the second broadband communicating module Equipment；

The closedown module is specifically used for closing after the sending module sends response data to the first terminal equipment First broadband communicating module and second broadband communicating module enter dormant state.

17. device according to claim 16, which is characterized in that the third establishes link block, is also used to described The configuration information and the second broadband connections mould for second broadband communicating module that one terminal device is got according to Block establishes broadband connection.

18. device according to claim 14, which is characterized in that described device further includes the second narrow band communication module；

The receiving module is passed specifically for receiving the data that the first terminal equipment is sent by the first narrow band communication module Defeated request, and the data transfer request is sent to the second narrow band communication module；

The starting module, specifically for passing through second narrow bandpass when determination needs to start high speed transmission data mode Believe the first broadband communicating module described in data bits.