CN105722060B - Mobile terminal and its communication means - Google Patents
Mobile terminal and its communication means Download PDFInfo
- Publication number
- CN105722060B CN105722060B CN201610071091.7A CN201610071091A CN105722060B CN 105722060 B CN105722060 B CN 105722060B CN 201610071091 A CN201610071091 A CN 201610071091A CN 105722060 B CN105722060 B CN 105722060B
- Authority
- CN
- China
- Prior art keywords
- wifi
- module
- submodule
- attendant sub
- processing
- 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.)
- Active
Links
Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W8/00—Network data management
- H04W8/18—Processing of user or subscriber data, e.g. subscribed services, user preferences or user profiles; Transfer of user or subscriber data
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/10—Connection setup
- H04W76/15—Setup of multiple wireless link connections
- H04W76/16—Involving different core network technologies, e.g. a packet-switched [PS] bearer in combination with a circuit-switched [CS] bearer
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/02—Terminal devices
- H04W88/06—Terminal devices adapted for operation in multiple networks or having at least two operational modes, e.g. multi-mode terminals
Landscapes
- Engineering & Computer Science (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Databases & Information Systems (AREA)
- Mobile Radio Communication Systems (AREA)
Abstract
The invention discloses a kind of mobile terminal and its communication means, specifically: the first modem obtains the information of the first Subscriber Identity Module, is communicated according to the information of the first Subscriber Identity Module with the first LTE network, progress voice service and data service;Second modem obtains the information of second user identification card, is communicated according to the information of second user identification card with the second LTE network, carries out voice service and data service;When WiFi Attendant sub-module receives the WiFi link order of WiFi application submodule transmission, which is sent to WiFi processing submodule;WiFi handles submodule and gives WiFi Attendant sub-module according to the status information that the instruction and corresponding agreement send WiFi connection;WiFi Attendant sub-module determines that WiFi has been successfully connected according to status information, and WiFi processing submodule is in when presetting communications status, starts routing configuration.Improve the access efficiency of mobile terminal network.
Description
Technical field
The present invention relates to technical field of mobile terminals, and in particular to a kind of mobile terminal and its communication means.
Background technique
The double-terminal 95% of existing market all supports a card online, and another card can make a phone call.But seldom eventually
End can support two SIM (Subscribe Identity Module, Subscriber Identity Module) to block while surf the Internet.It is newest at present
Two SIM cards, which may be implemented, in terminal to surf the Internet simultaneously, but if 4G (the 4th Generation on a SIM card
Mobile Communication Technology, fourth generation mobile communication technology) and LTE (Long Term Evolution, it is long
Phase evolution technology), another card can only go up the network of 3G (3rd Generation, 3rd generation mobile communication technology), two SIM
Card cannot use 4G network simultaneously.And existing mobile terminal generally comprises a modem device and an application processing
Device, wherein modem is used to complete protocol processes, and for being modulated demodulation to the communication data of transmitting-receiving, with reality
Now with the functions such as the communication of external communication device.Application processor is used to handle complicated logical operation and carries out task point
Match, provides interactive interface, operation operating system etc. for user.
In order to extend the communication function of mobile terminal, when needing to increase new modem and application processor, but
On the basis of increasing new modem and application processor, mobile terminal or only one WiFi chip and corresponding
Protocol stack and upper layer application only support the connection to a Wi-Fi hotspot, and due to the limitation of the bandwidth of WiFi and and WiFi
The influence for the factors such as the mobile terminal quantity of hot spot connection is excessive, causes the access efficiency of network lower.
Above content is only used to facilitate the understanding of the technical scheme, and is not represented and is recognized that above content is existing skill
Art.
Summary of the invention
The present invention provides a kind of mobile terminal and its communication means, it is intended to which the lower technology of access efficiency for solving network is asked
Topic.
Based on the above issues, the present invention provides a kind of mobile terminal, and the mobile terminal includes the first WiFi module, second
WiFi module, WiFi Attendant sub-module, audio-frequency module, the first modem and second modem, wherein described first
WiFi module includes the first WiFi application submodule and the first WiFi handles submodule, and second WiFi module includes second
WiFi application submodule and the 2nd WiFi handle submodule;
First modem is identified for obtaining the information of the first Subscriber Identity Module according to first user
The information of card is communicated with the first LTE network, carries out voice service and data service;
The second modem is identified for obtaining the information of second user identification card according to the second user
The information of card is communicated with the second LTE network, carries out voice service and data service;
The first WiFi processing submodule or the 2nd WiFi handle submodule, for working as first modulation /demodulation
Device by first LTE network carry out data service and/or the second modem by second LTE network into
Row data service, and when receiving WiFi link order, the WiFi link order is sent to the WiFi Attendant sub-module;
The WiFi Attendant sub-module, for when receiving the WiFi link order, by the WiFi link order
It is sent to the corresponding first WiFi processing submodule or the 2nd WiFi processing submodule;
The first WiFi processing submodule or the 2nd WiFi handle submodule, for being referred to according to the WiFi connection
It enables and corresponding agreement sends the status information of WiFi connection to the WiFi Attendant sub-module;
The WiFi Attendant sub-module is also used to determine that WiFi has been successfully connected according to the state information, and described
One WiFi handles submodule and/or the 2nd WiFi processing submodule is in when presetting communications status, corresponding starting list WiFi
The routing configuration of the routing configuration of data or double WiFi datas, so that mobile terminal passes through first WiFi module, described the
At least one of two WiFi modules, first LTE network communication and second LTE network communication or two or more combinations
Carry out the data service.
Optionally, the WiFi Attendant sub-module is also used to determine that according to the state information WiFi has been successfully connected
When, the acquisition instruction for obtaining IP address is sent to the first WiFi processing submodule and the 2nd WiFi processing submodule;
The first WiFi processing submodule and the 2nd WiFi handle submodule, are also used to according to the acquisition instruction
Corresponding IP address is sent to the WiFi Attendant sub-module;
The WiFi Attendant sub-module, be also used to be determined according to the IP address of acquisition the first WiFi processing submodule and
Whether the 2nd WiFi processing submodule is in default communications status;
The WiFi Attendant sub-module, if being also used to the first WiFi processing submodule or the 2nd WiFi processing
Module is in default communications status, then starts the routing configuration of single WiFi data, so that mobile terminal passes through the first WiFi
Module, second WiFi module, first LTE network communication and second LTE network communication at least one of or
Two or more combinations carry out the data service;
The WiFi Attendant sub-module, if being also used to the first WiFi processing submodule and the 2nd WiFi processing
Module is in default communications status, then starts the routing configuration of double WiFi datas, so that mobile terminal passes through described first
At least one of WiFi module, second WiFi module, first LTE network communication and second LTE network communication
Or two or more combinations carry out the data service.
Optionally, the first WiFi processing submodule include the first WiFi framework unit, the first WiFi protocol element and
First WiFi chip;2nd WiFi processing submodule includes the second WiFi framework unit, the 2nd WiFi protocol element and the
Two WiFi chips;
The first WiFi framework unit or the second WiFi framework unit are also used to that the WiFi connection ought be received
When instruction, the relevant information of WiFi is obtained, and be sent to described for the relevant information and the WiFi link order are corresponding
One WiFi protocol element or the 2nd WiFi protocol element;
The first WiFi protocol element or the 2nd WiFi protocol element are also used to that the relevant information ought be received
When with the WiFi link order, corresponding agreement is selected according to the relevant information, and the agreement and the WiFi are connected
It connects instruction correspondence and is sent to first WiFi chip or second WiFi chip;
First WiFi chip or second WiFi chip, are also used to receive the agreement and connect with the WiFi
When instruction, the state that connects with the WiFi link order correspondence establishment WiFi according to the agreement, and the WiFi is connected
Information is sent to the WiFi Attendant sub-module.
Optionally, the WiFi Attendant sub-module is also used to for WiFi status information being sent to the first WiFi application
Submodule or the 2nd WiFi application submodule;
The first WiFi application submodule or the 2nd WiFi application submodule are also used to receive the state letter
When breath, prompt information is exported according to the state information.
Optionally, the mobile terminal further includes coding/decoding module and the first data processing module;
The voice signal is sent to coding/decoding module for acquiring voice signal by the audio-frequency module;
The coding/decoding module, for carrying out analog-to-digital conversion to the voice signal when receiving the voice signal
After be transferred to the first data processing module;
First data processing module, for carrying out audio processing to the received voice signal of institute and being transferred to institute
State the first modem.
Optionally, second data processing module of mobile terminal;
First data processing module is also used to be transferred to after the voice signal received to institute carries out audio processing
Second data processing module;
Second data processing module, for giving the received transmitting voice signal of institute to the second modem.
Further, it is also proposed that a kind of communication means, the communication means include:
First modem, second modem, audio-frequency module, WiFi Attendant sub-module, the first WiFi mould are provided
Block and the second WiFi module, the first application processor being connect with first modem, with second modulation /demodulation
Second application processor of device connection, wherein first WiFi module includes the first WiFi application submodule and the first WiFi
Handle submodule;Second WiFi module includes that the 2nd WiFi application submodule and the 2nd WiFi handle submodule;
First modem obtains the information of the first Subscriber Identity Module, according to the letter of first Subscriber Identity Module
Breath is communicated with the first LTE network, carries out voice service and data service;
The second modem obtains the information of second user identification card, according to the letter of the second user identification card
Breath is communicated with the second LTE network, carries out voice service and data service;
When first modem carries out data service and/or second modulation by first LTE network
Demodulator carries out data service, and the first WiFi application submodule or the 2nd WiFi by second LTE network
When receiving WiFi link order using submodule, the first WiFi application submodule or the 2nd WiFi application submodule
The WiFi link order is sent to the WiFi Attendant sub-module;
When the WiFi Attendant sub-module receives the WiFi link order, the WiFi link order is sent to
The corresponding first WiFi processing submodule or the 2nd WiFi handle submodule;
First WiFi processing submodule or the 2nd WiFi processing submodule according to the WiFi link order with
And corresponding agreement sends the status information of WiFi connection to the WiFi Attendant sub-module;
When the WiFi Attendant sub-module determines that WiFi has been successfully connected according to the state information, and the first WiFi
It handles submodule and/or the 2nd WiFi processing submodule is in when presetting communications status, the WiFi Attendant sub-module pair
The routing configuration of single WiFi data or the routing configuration of double WiFi datas should be started, so that mobile terminal passes through the first WiFi
Module, second WiFi module, first LTE network communication and second LTE network communication at least one of or
Two or more combinations carry out the data service.
Optionally, it is described when the WiFi Attendant sub-module according to the state information determine WiFi be successfully connected, and
When the first WiFi processing submodule and/or the 2nd WiFi processing submodule are in default communications status, the WiFi
Attendant sub-module is corresponding to start single routing configuration of WiFi data or the routing configuration of double WiFi datas, so that mobile terminal passes through
In first WiFi module, second WiFi module, first LTE network communication and second LTE network communication
At least one or two or more combinations carry out the step of data service and include:
When the WiFi Attendant sub-module determines that WiFi has been successfully connected according to the state information, the WiFi service
Submodule sends the acquisition instruction for obtaining IP address to the first WiFi processing submodule and the 2nd WiFi processing submodule
Block;
The first WiFi processing submodule and the 2nd WiFi processing submodule are according to acquisition instruction transmission pair
The IP address answered gives the WiFi Attendant sub-module;
The WiFi Attendant sub-module determines the first WiFi processing submodule and described the according to the IP address of acquisition
Whether two WiFi processing submodule is in default communications status;
If the first WiFi processing submodule or the 2nd WiFi processing submodule are in default communications status, described
WiFi Attendant sub-module then starts the routing configuration of single WiFi data, so that mobile terminal passes through first WiFi module, institute
State at least one of the second WiFi module, first LTE network communication and second LTE network communication or two or more
Combination carries out the data service;
If the first WiFi processing submodule and the 2nd WiFi processing submodule are in default communications status, institute
State the routing configuration that WiFi Attendant sub-module then starts double WiFi datas, for mobile terminal by first WiFi module,
Second WiFi module, first LTE network communication and second LTE network communication at least one of or two kinds with
Upper combination carries out the data service.
Optionally, the first WiFi processing submodule include the first WiFi framework unit, the first WiFi protocol element and
First WiFi chip;2nd WiFi processing submodule includes the second WiFi framework unit, the 2nd WiFi protocol element and the
Two WiFi chips, the first WiFi processing submodule or the 2nd WiFi processing submodule are according to the WiFi link order
And the status information of corresponding agreement transmission WiFi connection includes: to the step of WiFi Attendant sub-module
When the first WiFi framework unit or the second WiFi framework unit receive the WiFi link order,
The relevant information of WiFi is obtained, and the relevant information and the WiFi link order are corresponded to and are sent to the first WiFi association
Discuss unit or the 2nd WiFi protocol element;
When the first WiFi protocol element or the 2nd WiFi protocol element receive the relevant information and described
When WiFi link order, corresponding agreement is selected according to the relevant information, and by the agreement and the WiFi link order
Correspondence is sent to first WiFi chip or second WiFi chip;
When first WiFi chip or second WiFi chip receive the agreement and the WiFi link order
When, the status information that connects with the WiFi link order correspondence establishment WiFi according to the agreement, and the WiFi is connected
It is sent to the WiFi Attendant sub-module.
Optionally, it is described when the WiFi Attendant sub-module according to the state information determine WiFi be successfully connected, and
When the first WiFi processing submodule and/or the 2nd WiFi processing submodule are in default communications status, the WiFi
After the step of routing configuration of the corresponding routing configuration for starting single WiFi data of Attendant sub-module or double WiFi datas, also wrap
It includes:
WiFi status information is sent to the first WiFi application submodule or described by the WiFi Attendant sub-module
Two WiFi application submodules;
When the first WiFi application submodule or the 2nd WiFi application submodule receive the status information,
Prompt information is exported according to the state information.
Optionally, first modem obtains the information of first Subscriber Identity Module, uses according to described first
The information of family identification card is communicated with the first LTE network, carry out voice service the step of include:
The audio-frequency module acquires voice signal, and the voice signal is sent to coding/decoding module;
When the coding/decoding module receives the voice signal, the coding/decoding module carries out the voice signal
The first data processing module is transferred to after analog-to-digital conversion;
The first data processing module voice signal received to institute carries out audio processing and is transferred to first tune
Modulator-demodulator.
Optionally, described when the coding/decoding module receives the voice signal, the coding/decoding module is to described
After the step of being transferred to the first data processing module after voice signal progress analog-to-digital conversion, further includes:
First data processing module voice signal received to institute is transferred to the second number after carrying out audio processing
According to processing module;
Second data processing module gives the received transmitting voice signal of institute to the second modem.
The present invention provides the first modem, second modem, audio-frequency module, WiFi Attendant sub-module, first
WiFi module and the second WiFi module, the first application processor connecting with first modem are adjusted with described second
Second application processor of modulator-demodulator connection, wherein first WiFi module includes the first WiFi application submodule and the
One WiFi handles submodule;Second WiFi module includes that the 2nd WiFi application submodule and the 2nd WiFi handle submodule,
First modem obtains the information of the first Subscriber Identity Module, according to the information and first of first Subscriber Identity Module
LTE network communication, carries out voice service and data service;The second modem obtains the letter of second user identification card
Breath, communicates according to the information of the second user identification card with the second LTE network, carries out voice service and data service;Work as institute
It states the first modem and institute is passed through by first LTE network progress data service and/or the second modem
It states the second LTE network and carries out data service, and the first WiFi application submodule or the 2nd WiFi application submodule connect
When receiving WiFi link order, the first WiFi application submodule or the 2nd WiFi application submodule connect the WiFi
It connects instruction and is sent to the WiFi Attendant sub-module;When the WiFi Attendant sub-module receives the WiFi link order,
The WiFi link order is sent to the corresponding first WiFi processing submodule or the 2nd WiFi processing submodule;
First WiFi processing submodule or the 2nd WiFi processing submodule are according to the WiFi link order and corresponding
Agreement sends the status information of WiFi connection to the WiFi Attendant sub-module;When the WiFi Attendant sub-module is according to the shape
State information determines that WiFi has been successfully connected, and the first WiFi processing submodule and/or the 2nd WiFi handle submodule
When in default communications status, the corresponding routing configuration or double WiFi datas for starting single WiFi data of the WiFi Attendant sub-module
Routing configuration, so that mobile terminal passes through first WiFi module, second WiFi module, first LTE network
At least one of communication and second LTE network communication or two or more combinations carry out the data service.Realize use
Family can pass through the first WiFi module and the second WiFi module and access the same network simultaneously, or by the first WiFi module and
Second WiFi module accesses different networks respectively, while the first modem may be implemented and communicate with the first LTE network,
And/or second modem is communicated with the second LTE network, improves the access efficiency of mobile terminal network, such as when mobile whole
It is logical by the first WiFi module, the second WiFi module, the communication of the first LTE network and the second LTE network when end executes downloading service
At least one of letter or two or more combinations are downloaded business, improve the speed of download downloading service of mobile terminal, improve
The speed of download of mobile terminal.
Detailed description of the invention
Fig. 1 to realize the present invention in each embodiment an optional mobile terminal hardware structural diagram;
Fig. 2 is that a kind of inner frame of mobile terminal in the embodiment of the present invention illustrates intention;
Fig. 3 is a kind of circuit theory schematic diagram of embodiment of mobile terminal of the present invention;
Fig. 4 is a kind of functional block diagram that the first WiFi handles submodule in the embodiment of the present invention;
Fig. 5 is a kind of functional block diagram that the 2nd WiFi handles submodule in the embodiment of the present invention;
Fig. 6 is that mobile terminal of the present invention refines circuit theory schematic diagram;
Fig. 7 is the flow diagram of the first embodiment of communication means of the present invention;
Fig. 8 is the flow diagram of the second embodiment of communication means of the present invention.
Specific embodiment
It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, it is not intended to limit the present invention.
The mobile terminal of each embodiment of the present invention is realized in description with reference to the drawings.In subsequent description, use
For indicate element such as " module ", " component " or " unit " suffix only for being conducive to explanation of the invention, itself
There is no specific meanings.Therefore, " module " can be used mixedly with " component ".
Mobile terminal can be implemented in a variety of manners.For example, terminal described in the present invention may include such as moving
Phone, smart phone, laptop, digit broadcasting receiver, PDA (personal digital assistant), PAD (tablet computer), PMP
The mobile terminal of (portable media player), navigation device etc. and such as number TV, desktop computer etc. are consolidated
Determine terminal.Hereinafter it is assumed that terminal is mobile terminal.However, it will be understood by those skilled in the art that in addition to being used in particular for moving
Except the element of purpose, the construction of embodiment according to the present invention can also apply to the terminal of fixed type.
Fig. 1 to realize the present invention in each embodiment an optional mobile terminal hardware structural diagram.
Mobile terminal 100 may include wireless communication unit 110, A/V (audio/video) input unit 120, user's input
Unit 130, output unit 150, memory 160, interface unit 170, controller 180 and power supply unit 190 etc..Fig. 1 is shown
Mobile terminal with various assemblies, it should be understood that be not required for implementing all components shown.It can be alternatively
Implement more or fewer components.The element of mobile terminal will be discussed in more detail below.
Wireless communication unit 110 generally includes one or more components, allows mobile terminal 100 and wireless communication system
Or the radio communication between network.For example, wireless communication unit 110 can include but is not limited to 112 He of mobile communication module
Wireless Internet module 113.
Mobile communication module 112 sends radio signals to base station (for example, access point, node B etc.), exterior terminal
And at least one of server and/or receive from it radio signal.Such radio signal may include that voice is logical
Talk about signal, video calling signal or according to text and/or Multimedia Message transmission and/or received various types of data.
The Wi-Fi (Wireless Internet Access) of the support mobile terminal of wireless Internet module 113.The module can be internally or externally
It is couple to terminal.Wi-Fi (Wireless Internet Access) technology involved in the module may include WLAN (Wireless LAN) (Wi-Fi), Wibro
(WiMAX), Wimax (worldwide interoperability for microwave accesses), HSDPA (high-speed downlink packet access) etc..
A/V input unit 120 is for receiving audio or video signal.A/V input unit 120 includes but is not limited to microphone
122, microphone 122 can be in telephone calling model, logging mode, speech recognition mode etc. operational mode via microphone
It receives sound (audio data), and can be audio data by such acoustic processing.Audio that treated (voice) data
The format that mobile communication base station can be sent to via mobile communication module 112 can be converted in the case where telephone calling model
Output.Microphone 122 can be implemented various types of noises and eliminate (or inhibition) algorithm to eliminate (or inhibition) and receive and sending out
The noise generated during sending audio signal or interference.
The order that user input unit 130 can be inputted according to user generates key input data to control each of mobile terminal
Kind operation.User input unit 130 allows user to input various types of information, and may include keyboard, metal dome, touch
Plate (for example, the sensitive component of detection due to the variation of resistance, pressure, capacitor etc. caused by being contacted), idler wheel, rocking bar etc.
Deng.Particularly, when touch tablet is superimposed upon in the form of layer on display unit 151, touch screen can be formed.
Interface unit 170 be used as at least one external device (ED) connect with mobile terminal 100 can by interface.For example,
External device (ED) may include wired or wireless headphone port, external power supply (or battery charger) port, wired or nothing
Line data port, memory card port, the port for connecting the device with identification module, audio input/output (I/O) end
Mouth, video i/o port, ear port etc..Identification module can be storage and use each of mobile terminal 100 for verifying user
It plants information and may include subscriber identification module (UIM), client identification module (SIM), Universal Subscriber identification module (USIM)
Etc..In addition, the device (hereinafter referred to as " identification device ") with identification module can take the form of smart card, therefore, know
Other device can be connect via port or other attachment devices with mobile terminal 100.Interface unit 170, which can be used for receiving, to be come from
The input (for example, data information, electric power etc.) of external device (ED) and the input received is transferred in mobile terminal 100
One or more elements can be used for transmitting data between mobile terminal and external device (ED).
In addition, when mobile terminal 100 is connect with external base, interface unit 170 may be used as allowing will be electric by it
Power, which is provided from pedestal to the path or may be used as of mobile terminal 100, allows the various command signals inputted from pedestal to pass through it
It is transferred to the path of mobile terminal.The various command signals or electric power inputted from pedestal, which may be used as mobile terminal for identification, is
The no signal being accurately fitted on pedestal.Output unit 150 is configured to provide with vision, audio and/or tactile manner defeated
Signal (for example, audio signal, vision signal, alarm signal, vibration signal etc.) out.Output unit 150 may include display
Unit 151, audio output module 152 etc..
Display unit 151 may be displayed on the information handled in mobile terminal 100.For example, when mobile terminal 100 is in electricity
When talking about call mode, display unit 151 can show and converse or other communicate (for example, text messaging, multimedia file
Downloading etc.) relevant user interface (UI) or graphic user interface (GUI).When mobile terminal 100 is in video calling mode
Or when image capture mode, display unit 151 can show captured image and/or received image, show video or figure
Picture and the UI or GUI of correlation function etc..
Meanwhile when display unit 151 and touch tablet in the form of layer it is superposed on one another to form touch screen when, display unit
151 may be used as input unit and output device.Display unit 151 may include liquid crystal display (LCD), thin film transistor (TFT)
In LCD (TFT-LCD), Organic Light Emitting Diode (OLED) display, flexible display, three-dimensional (3D) display etc. at least
It is a kind of.Some in these displays may be constructed such that transparence to allow user to watch from outside, this is properly termed as transparent
Display, typical transparent display can be, for example, TOLED (transparent organic light emitting diode) display etc..According to specific
Desired embodiment, mobile terminal 100 may include two or more display units (or other display devices), for example, moving
Dynamic terminal may include outernal display unit (not shown) and inner display unit (not shown).Touch screen can be used for detecting touch
Input pressure and touch input position and touch input area.
Audio output module 152 can mobile terminal be in call signal reception pattern, call mode, logging mode,
It is when under the isotypes such as speech recognition mode, broadcast reception mode, wireless communication unit 110 is received or in memory 160
The audio data transducing audio signal of middle storage and to export be sound.Moreover, audio output module 152 can provide and movement
The relevant audio output of specific function (for example, call signal receives sound, message sink sound etc.) that terminal 100 executes.
Audio output module 152 may include loudspeaker, buzzer etc..
Codec unit 140 carries out coding and decoding operation to mobile terminal received signal or data flow, usually
Used in occasions such as video conference, Streaming Media, Video Applications.
Memory 160 can store the software program etc. of the processing and control operation that are executed by controller 180, Huo Zheke
Temporarily to store oneself data (for example, telephone directory, message, still image, video etc.) through exporting or will export.And
And memory 160 can store about the vibrations of various modes and audio signal exported when touching and being applied to touch screen
Data.
Memory 160 may include the storage medium of at least one type, and storage medium includes flash memory, hard disk, multimedia
Card, card-type memory (for example, SD or DX memory etc.), random access storage device (RAM), static random-access memory
(SRAM), read-only memory (ROM), electrically erasable programmable read-only memory (EEPROM), programmable read only memory
(PROM), magnetic storage, disk, CD etc..Moreover, mobile terminal 100 can execute memory with by network connection
The network storage device of 160 store function cooperates.
The overall operation of the usually control mobile terminal of controller 180.For example, controller 180 executes and voice communication, data
Communication, video calling etc. relevant control and processing.
Power supply unit 190 receives external power or internal power under the control of controller 180 and provides operation each member
Electric power appropriate needed for part and component.
Data processing unit 210 is for handling the received audio data of mobile terminal, video data etc..
Various embodiments described herein can be to use the calculating of such as computer software, hardware or any combination thereof
Machine readable medium is implemented.Hardware is implemented, embodiment described herein can be by using application-specific IC
(ASIC), digital signal processor (DSP), digital signal processing device (DSPD), programmable logic device (PLD), scene can
Programming gate array (FPGA), controller, microcontroller, microprocessor, is designed to execute function described herein processor
At least one of electronic unit is implemented, and in some cases, such embodiment can be implemented in controller 180.
For software implementation, the embodiment of such as process or function can with allow to execute the individual of at least one functions or operations
Software module is implemented.Software code can by the software application (or program) write with any programming language appropriate Lai
Implement, software code can store in memory 160 and be executed by controller 180.
So far, oneself is through describing mobile terminal according to its function.In the following, for the sake of brevity, will description such as folded form,
Slide type mobile terminal in various types of mobile terminals of board-type, oscillating-type, slide type mobile terminal etc., which is used as, to be shown
Example.Therefore, the present invention can be applied to any kind of mobile terminal, and be not limited to slide type mobile terminal.
Mobile terminal 100 as shown in Figure 1 may be constructed such that using via frame or grouping send data it is all if any
Line and wireless communication system and satellite-based communication system operate.
Based on above-mentioned 100 hardware configuration of mobile terminal, each embodiment of the method for the present invention is proposed.
Intention, figure are illustrated referring to Fig. 2 and referring to a kind of inner frame that Fig. 3, Fig. 2 are mobile terminal in the embodiment of the present invention
3 be a kind of circuit theory schematic diagram of embodiment of mobile terminal 100 of the present invention.
First modem 30, for obtaining the information of the first Subscriber Identity Module 90, according to the first Subscriber Identity Module 90
Information communicated with the first LTE network, carry out voice service and data service;
Second modem 40, for obtaining the information of second user identification card 11, according to second user identification card 11
Information communicated with the second LTE network, carry out voice service and data service;
In this embodiment, mobile terminal 100 includes but is not limited to mobile phone and tablet computer, mobile terminal provided by the invention
100 are mainly used in the twin-channel mobile terminal 100 of double card provided based on two modems, certainly, in other implementations
In example, the communication mechanism of mobile terminal 100 is not limited to dual-channels communication mode provided by the invention, can also be triple channel
And multichannel communication mode more than triple channel.
Mobile terminal 100 is applied to be based on twin-channel communication, and mobile terminal 100 includes, the first WiFi module 66, second
WiFi module 77, the first application processor 10, the first modem 30 being connect with the first application processor 10 and the first number
According to processing module 70, the second application processor 20 being connect with the first application processor 10, and with the second application processor 20
The second modem 40 of connection and the second data processing module 80, wherein the first data processing module 70 and the second data
Processing module 80 connect, in addition, the first modem 30 also respectively with the first Subscriber Identity Module 90 and the first radio-frequency module 33
Connection, second modem 40 are also connect with second user identification card 11 and the second radio-frequency module 22 respectively.First WiFi mould
Block 66 is connect with the first application processor 10, the second WiFi module 77 and the first application processor 10 or the second application processor 20
Connection;First WiFi module 66 includes that the first WiFi application submodule 661 and the first WiFi handle submodule 660;2nd WiFi
Module 77 includes that the 2nd WiFi application submodule 771 and the 2nd WiFi handle submodule 770;First WiFi handles submodule 660
It is connect with first using submodule by WiFi Attendant sub-module 88, the 2nd WiFi handles submodule 770 and services son by WiFi
Module 88 is connect with second using submodule;First WiFi module 66 and the second WiFi module 77 include same WiFi service
Module 88.That is the first WiFi module 66 includes the first WiFi application submodule 661, the first WiFi processing submodule 660 and WiFi
Attendant sub-module 88, the second WiFi module 77 include the 2nd WiFi application submodule 771, the 2nd WiFi processing 770 and of submodule
WiFi Attendant sub-module 88.
First modem 30 is connect with the first Subscriber Identity Module 90, when the first modem 30 needs to carry out voice
When business and/or data service, the first modem 30 obtains the information of the first Subscriber Identity Module 90, and the based on acquisition
The information of one Subscriber Identity Module 90 is communicated with the first LTE network, carries out voice service and/or data service.
Second modem 40 is connect with second user identification card 11, when second modem 40 needs to carry out voice
When business and/or data service, second modem 40 obtains the information of second user identification card 11, and the based on acquisition
The information of two Subscriber Identity Modules 11 is communicated with the second LTE network, carries out voice service and/or data service.
It should be noted that the first modem 30 and second modem 40 can carry out data service simultaneously,
Or while the first modem 30 carries out voice service, second modem 40 carries out data service, or works as
When first modem 30 carries out data service, second modem 40 carries out voice service etc..The communication of first LTE network
It can be identical network operator with the communication of the second LTE network, or different network operators.Such as the first LTE network
The operator of communication is movement, and the operator of the second LTE network communication is connection;Or first LTE network communication operator
For telecommunications, the operator of the second LTE network is also telecommunications.First modem 30 and second modem 40 carry out voice
Network used in business and data service includes but is not limited to LTE network.
The information of first Subscriber Identity Module 90 and the information of second user identification card 11 include but is not limited to ICCID
(Integrate Circuit Card Identity, integrated circuit card identification code) and IMSI (International Mobile
Subscribe Identification Number, international mobile subscriber identity).
First application processor 10 controls mobile terminal 100 by controller 180 in Fig. 1 and interacts with user, to use
Family provides interactive interface.First application processor 10 is used to handle the logical operation of some complexity, is also used to shut user
Net or the operational order of call correspondence are sent to the first modem 30 and the second application processor 20.
First radio-frequency module 33 is directly connect with the first modem 30, for send the first modem 30
Base station network is sent to after data processing, the data that the first radio-frequency module 33 is also used to transmit base station network are sent to
One modem 30.Second radio-frequency module 22 is directly connect with second modem 40, is used for second modem
Base station network, the data that the second radio-frequency module 22 is also used to transmit base station network are sent to after 40 data processings sent
It is sent to second modem 40.First radio-frequency module 33 and the second radio-frequency module 22 can be the mobile communication mould in Fig. 1
Block 112.
The effect of first application processor 10 and the second application processor 20 mainly includes that interactive interface is provided for user, is moved
Task distribution of dynamic 100 operating system of terminal etc..Certainly, there are also them for the first application processor 10 and the second application processor 20
The inner frame of itself, including application layer, ccf layer etc..In the present invention, the first application processor 10 and the second application processor
20, most important effect is other than handling the logical operation of some complexity, also by user in relation to surfing the Internet or making a phone call, send short messages
Correspondence issues the modem respectively connected under equal operational orders.
First modem 30 and second modem 40 contain the various associations with the network formats of network interaction
Discuss stack.Wherein, protocol stack contains the protocol code that communication standard provides, such as: and LTE (Long Term Evolution, it is long
Phase evolution is the long term evolution for the Universal Mobile Communication System technical standard organized to set up by 3GPP)/WCDMA (Wideband
Code Division Multiple Access, wideband code division multiple access)/GSM (Global System for Mobile
Communication, global system for mobile communications)/TDSCDMA (Time Division-Synchronous Code
Division Multiple Access, TD SDMA)/CDMA 1X is (improved in CDMA IS-95 standard base
2.75G technology supports voice-and-data transmission)/EVDO (Evolution Data Only, can support speech and data simultaneously)
Deng.Mobile terminal 100 either passes through data traffic online, VOLTE (Voice when interacting with carrier network
Over LTE, the voice service based on IMS) it makes a phone call or CS (Circuit Switched, circuit switching) makes a phone call, it will
By the agreement of these standards, and modem is equivalent to the container of these consensus standards.Certainly, modem is also
Some other managerial functions, such as pipe to SIM (Subscriber Identity Module, client identification module card)
Control etc..Therefore, it if desired surfs the Internet or makes a phone call, mobile terminal 100 then needs the support of modem.
First WiFi handles submodule 661 or the 2nd WiFi handles submodule 771, for leading to when the first modem 30
It crosses the first LTE network and carries out data service and/or second modem 40 by the progress data service of the second LTE network, and
When receiving WiFi link order, WiFi link order is sent to WiFi Attendant sub-module 88;
WiFi Attendant sub-module 88 when for receiving WiFi link order, WiFi link order is sent to corresponding
First WiFi handles submodule 661 or the 2nd WiFi handles submodule 771;
When the first modem 30 is logical by the progress data service of the first LTE network and/or second modem 40
When crossing the progress data service of the second LTE network, if the first WiFi application submodule 661 or the 2nd WiFi application submodule 771 connect
When receiving WiFi link order, the first WiFi application submodule 661 or the 2nd WiFi application submodule 771 then refer to WiFi connection
Order is sent to WiFi Attendant sub-module 88;When WiFi Attendant sub-module 88 receives the WiFi link order, WiFi service
Module 88 judge the WiFi link order be sent by the first WiFi application submodule 661 or the 2nd WiFi application submodule
771 transmissions, if the WiFi link order is sent by the first WiFi application submodule 661, WiFi Attendant sub-module 88
The WiFi link order is sent to the first WiFi processing submodule 660;If the WiFi link order is applied by the 2nd WiFi
What submodule 771 was sent, which is then sent to the 2nd WiFi processing submodule by WiFi Attendant sub-module 88
770。
First WiFi handles submodule 660 or the 2nd WiFi and handles submodule 770, for according to WiFi link order and
Corresponding agreement sends the status information of WiFi connection to WiFi Attendant sub-module 88;
When the first WiFi processing submodule 660 receives the WiFi link order of the transmission of WiFi Attendant sub-module 88, the
One WiFi handles submodule 660 and is somebody's turn to do according to the WiFi link order and according to the corresponding agreement execution of the WiFi link order
WiFi link order, and the status information of WiFi connection is sent to WiFi Attendant sub-module 88;When the 2nd WiFi handles submodule
When block 770 receives the WiFi link order of the transmission of WiFi Attendant sub-module 88, the 2nd WiFi handles submodule 770 according to this
WiFi link order and the WiFi link order is executed according to the corresponding agreement of WiFi link order, and by WiFi connection
Status information is sent to WiFi Attendant sub-module 88.There are three types of the status informations of WiFi connection, respectively has connected, is connecting
And connection failure.
Further, it includes the first WiFi framework unit 662, the first WiFi agreement list that the first WiFi, which handles submodule 660,
Member 663 and the first WiFi chip 665;It includes the second WiFi framework unit 772, the 2nd WiFi that 2nd WiFi, which handles submodule 770,
Protocol element 773 and the second WiFi chip 775.
It specifically, is a kind of function mould that the first WiFi handles submodule in the embodiment of the present invention referring to Fig. 4 and Fig. 5, Fig. 4
Block figure, Fig. 5 are a kind of functional block diagram that the 2nd WiFi handles submodule in the embodiment of the present invention.
First WiFi framework unit 662 or the second WiFi framework unit 772, when being also used to receive WiFi link order,
Obtain the relevant information of WiFi, and by relevant information and WiFi link order it is corresponding be sent to the first WiFi protocol element 663 or
2nd WiFi protocol element 773;
First WiFi protocol element 663 or the 2nd WiFi protocol element 773, are also used to receive relevant information and WiFi connects
When connecing instruction, corresponding agreement is selected according to relevant information, and agreement and WiFi link order correspondence are sent to the first WiFi
Chip 665 or the second WiFi chip 775;
First WiFi chip 665 or the second WiFi chip 775, when being also used to receive agreement and WiFi link order, root
It is connected according to agreement with WiFi link order correspondence establishment WiFi, and the status information of WiFi connection is sent to WiFi service submodule
Block 88.
It specifically, is that mobile terminal 100 of the present invention refines circuit theory schematic diagram referring to Fig. 6, Fig. 6.
It includes the first WiFi framework unit 662, the first WiFi protocol element 663, first that first WiFi, which handles submodule 660,
WiFi driving unit 664 and the first WiFi chip 665;It includes the second WiFi framework unit that 2nd WiFi, which handles submodule 770,
772, the 2nd WiFi protocol element 773, the 2nd WiFi driving unit 774 and the second WiFi chip 775.First WiFi framework unit
662 and second WiFi framework unit 772 connect respectively with WiFi Attendant sub-module 88, the first WiFi framework unit 662 and first
WiFi protocol element 663 connects, and the first WiFi protocol element 663 is connect with the first WiFi driving unit 664, the first WiFi driving
Unit 664 is connect with the first WiFi chip 665;Second WiFi framework unit 772 is connect with the 2nd WiFi protocol element 773, the
Two WiFi protocol elements 773 are connect with the 2nd WiFi driving unit 774, the 2nd WiFi driving unit 774 and the second WiFi chip
775 connections.
When the first WiFi framework unit 662 receives the WiFi link order of the transmission of WiFi Attendant sub-module 88, obtain
The relevant information of WiFi, and the relevant information of WiFi and WiFi link order are sent to the first protocol element, wherein WiFi's
Relevant information includes but is not limited to WiFi title, frequency and signal strength.When the first WiFi protocol element 663 receives WiFi
Relevant information and WiFi link order when, the relevant information of the WiFi is written in the configuration file of corresponding agreement, according to
The relevant information of the WiFi determines corresponding agreement, and selects regulation WiFi agreement according to corresponding agreement.First WiFi agreement
The WiFi agreement of selection and WiFi link order are sent to the first WiFi driving unit 664 by unit 663, are driven by the first WiFi
Unit 664 is sent to the first WiFi chip 665.When the first WiFi chip 665 receives the WiFi agreement and WiFi link order
When, WiFi is established with WiFi link order according to the WiFi agreement and is connected.In WiFi connection procedure, the state of WiFi connection is believed
Breath can change, and such as become having connected from connecting, or be changed into connection failure etc. from connecting.As the first WiFi
After chip 665 establishes WiFi connection, the status information of WiFi connection is sent to WiFi Attendant sub-module 88.
Second WiFi framework unit 772 and the 2nd WiFi protocol element 773, the 2nd WiFi driving unit 774, the 2nd WiFi
The process and the first WiFi framework unit 662 and the of WiFi link order are executed between chip 775 and WiFi Attendant sub-module 88
It is held between one WiFi protocol element 663, the first WiFi driving unit 664, the first WiFi chip 665 and WiFi Attendant sub-module 88
Row WiFi link order process is similar, and details are not described herein.
WiFi Attendant sub-module 88 is also used to determine that WiFi has been successfully connected according to status information, and the first WiFi is handled
When submodule 660 and/or the 2nd WiFi processing submodule 770 are in default communications status, the correspondence of WiFi Attendant sub-module 88 is opened
The dynamic list routing configuration of WiFi data or the routing configuration of double WiFi datas, for mobile terminal by the first WiFi module 66,
At least one of second WiFi module 77, the communication of the first LTE network and the communication of the second LTE network or two or more combinations carry out
Data service.
When WiFi Attendant sub-module 88 receives the first WiFi processing submodule 660 or the 2nd WiFi processing submodule 770
When the status information of the WiFi connection of transmission, according to the status information of WiFi connection determine corresponding WiFi whether successful connection.
If WiFi Attendant sub-module 88 determines that WiFi has been successfully connected according to the status information of WiFi connection, and the first WiFi handles submodule
When block 660 and/or the 2nd WiFi processing submodule 770 are in default communications status, the corresponding starting of WiFi Attendant sub-module 88 is single
The routing configuration of the routing configuration of WiFi data or double WiFi datas.It is mobile after the completion of the routing configuration of single WiFi data
Terminal 100 carries out data service, on this basis, mobile terminal 100 according to the first WiFi module 66 or the second WiFi module 77
Data service can be carried out according to the first LTE network and/or the second LTE network simultaneously;When the routing configuration of double WiFi datas is complete
Cheng Hou, mobile terminal 100 carry out data service according to the first WiFi module 66 and the second WiFi module 77, on this basis, move
Dynamic terminal 100 can carry out data service according to the first LTE network and/or the second LTE network simultaneously.If WiFi Attendant sub-module
88 determine that the first WiFi processing submodule 660 and the 2nd WiFi handle submodule 770 according to the status information of WiFi connection
WiFi is not connected with successfully, then not starting the routing configuration of WiFi.Wherein, default communications status is to work as WiFi to be successfully connected,
User can carry out a kind of state when browsing webpage, viewing video according to the WiFi, i.e. user can access net by WiFi
Page, surfs the Internet etc..Routing configuration is IP address, name on account and the password etc. for configuring WiFi.
WiFi Attendant sub-module 88, when being also used to determine that WiFi has been successfully connected according to status information, WiFi services submodule
Block 88 sends the acquisition instruction for obtaining IP address to the first WiFi processing submodule 660 and the 2nd WiFi processing submodule 770;
First WiFi handles submodule 660 and the 2nd WiFi handles submodule 770, is also used to according to acquisition instruction transmission pair
The IP address answered is to WiFi Attendant sub-module 88;
WiFi Attendant sub-module 88 is also used to determine the first WiFi processing submodule 660 and the according to the IP address of acquisition
Whether two WiFi handle submodule 770 in default communications status;
WiFi Attendant sub-module 88, if being also used to the first WiFi processing submodule 660 or the 2nd WiFi processing submodule 770
In default communications status, then start the routing configuration of single WiFi data, so that mobile terminal 100 passes through the first WiFi module
66, at least one of the second WiFi module 77, the communication of the first LTE network and the communication of the second LTE network or two or more combinations
Carry out data service;
WiFi Attendant sub-module 88, if being also used to the first WiFi processing submodule 660 and the 2nd WiFi processing submodule 770
Be in default communications status, then start the routing configuration of double WiFi datas, for mobile terminal by the first WiFi module 66,
At least one of second WiFi module 77, the communication of the first LTE network and the communication of the second LTE network or two or more combinations carry out
Data service.
When WiFi Attendant sub-module 88 determines that WiFi has been successfully connected according to the status information for receiving WiFi connection,
WiFi Attendant sub-module 88 handles submodule 660 to the first WiFi and the 2nd WiFi processing submodule 770 sends and obtains IP address
Acquisition instruction.If user is the first WiFi module 66 of manipulation at this time, i.e. the state of the first WiFi processing submodule 660 never connects
Switch through to be changed to and have connected, then refers to when the first WiFi driving unit 664 in the first WiFi processing submodule 660 receives the acquisition
When enabling, the first WiFi driving unit 664 starts DHCP (Dynamic Host Configuration Protocol, DynamicHost
Configuration protocol) service, it thus drives the first WiFi chip 665 to carry out eating dishes without rice or wine to interact with all WiFi according to acquisition instruction, obtains
The first IP address for being connected thereto WiFi is taken, and first IP address is cached into the first WiFi framework unit 662, by first
First IP address is sent to WiFi Attendant sub-module 88 by WiFi framework unit 662.When WiFi Attendant sub-module 88 receives
One IP address, and when the first IP address is not sky, WiFi Attendant sub-module 88 determines the first WiFi framework unit 662, first
In default communications status between WiFi protocol element 663, the first WiFi driving unit 664 and the first WiFi chip 665, i.e., the
One WiFi framework unit 662, the first WiFi protocol element 663, the first WiFi driving unit 664 and the first WiFi chip 665 it
Between be in data communication normal condition.If the second WiFi module 77 is not connected with WiFi at this time, the 2nd WiFi handles submodule 770
State have not been changed, always all in not-connected status.WiFi Attendant sub-module 88 directly obtains second according to acquisition instruction
The second IP address stored in WiFi framework unit 772, but second IP address is address blank, i.e. the second WiFi framework unit
772, data not can be carried out between the 2nd WiFi protocol element 773, the 2nd WiFi driving unit 774 and the second WiFi chip 775
Communication.There was only the first WiFi framework unit 662, the first WiFi protocol element 663, the first WiFi driving unit 664 and the at this time
Data communication normal condition is between one WiFi chip 665, WiFi Attendant sub-module 88 then starts the routing of single WiFi data
Setting.When the first WiFi module 66 does not carry out the operation of WiFi connection, and the second WiFi module 77 carries out WiFi attended operation, the
Two WiFi modules 77 carry out the process of WiFi connection and above-mentioned described first WiFi module 66 carries out WiFi attended operation, the
The process that two WiFi modules 77 do not carry out WiFi attended operation is similar, and details are not described herein.When the routing configuration of single WiFi data
After the completion, mobile terminal 100 carries out data service according to the first WiFi module 66 or the second WiFi module 77, on this basis,
Mobile terminal 100 can carry out data service according to the first LTE network and/or the second LTE network simultaneously.
When the first WiFi module 66 is in carrying out WiFi connection procedure, if the second WiFi module 77 has been in WiFi and has connected
State is connect, WiFi Attendant sub-module 88 then gets two IP address according to IP address acquisition instruction, and the two IP address are all
It is not sky, i.e. the first IP address and the second IP address are not sky.At this point, then showing the first WiFi framework unit 662, first
Data communication normal condition is between WiFi protocol element 663, the first WiFi driving unit 664 and the first WiFi chip 665,
And second the second WiFi framework unit 772 in WiFi module 77, the 2nd WiFi protocol element 773, the 2nd WiFi driving unit
774 and second can also carry out normal data communication, i.e. the first WiFi application submodule 661 and between WiFi chip 775
Two WiFi application submodules 771 are set all in default communications status at this point, WiFi Attendant sub-module 88 starts double WiFi routings
It sets.After the completion of the routing configuration of double WiFi datas, mobile terminal 100 is according to the first WiFi module 66 and the second WiFi module 77
Carry out data service, on this basis, mobile terminal 100 can simultaneously according to the first LTE network and/or the second LTE network into
Row data service.
When mobile terminal 100 carries out data service using the first WiFi module 66 and the second WiFi module 77 simultaneously, such as
When mobile terminal 100 is downloaded a video using two WiFi simultaneously, video 100M in total.When WiFi services submodule
Block 88 receives the first WiFi application submodule 661 and the 2nd WiFi application submodule 771 when downloading the instruction of the video, WiFi
Attendant sub-module 88 is according to the signal of current first WiFi application submodule 661 and the WiFi of the 2nd WiFi application submodule 771
Intensity and downloading rate equal part are with corresponding first WiFi processing submodule 660 and the 2nd WiFi processing downloading work of submodule 770
Make, when such as the first WiFi processing 660 signal strength of submodule is greater than the 2nd WiFi processing submodule 770, WiFi Attendant sub-module
88 settings download the 60% of the video by the first WiFi processing submodule 660, i.e. downloading 60M, handle submodule by the 2nd WiFi
770 download the 40% of the video, i.e. downloading 40M.Or WiFi Attendant sub-module 88 is arranged the first WiFi and handles 660 He of submodule
2nd WiFi handles submodule 770 and downloads the video according to the rule divided equally, i.e. the first WiFi handles submodule 660 and downloads 50M,
2nd WiFi submodule downloads 50M, or distributes the first WiFi processing submodule 660 and the 2nd WiFi processing according to preset rules
The content of the video is downloaded required for submodule 770, wherein preset rules are to be arranged according to concrete condition.It should be noted that
First WiFi module 66 and the second WiFi module 77 can use the same WiFi of connection, or the WiFi that connection is different.Or work as
100 first modem of mobile terminal, 30 place system downloads the partial content of the video by the first WiFi module 66, and
Second modem 40 passes through the partial content that the LTE network that communicates with downloads the video, i.e. the mobile terminal 100 at this time
The video is downloaded using the first WiFi module 66 and LTE network simultaneously.Mobile terminal 100 can be according to 66 He of the first WiFi module
How the respective downloading rate of LTE network downloads the video or the first WiFi module 66 and LTE network is respectively downloaded to distribute
50M.Perhaps mobile terminal 100 can download the video using LTE network and LTE network simultaneously or use the 2nd WiFi mould
Block 77 and LTE network download the video etc..
It should be noted that the present embodiment is all to be connected to first with the first WiFi module 66 and the second WiFi module 77
Illustrate in application processor 10.
Further, WiFi Attendant sub-module 88 is also used to the status information of WiFi connection being sent to the first WiFi and answer
With submodule 661 or the 2nd WiFi application submodule 771;
First WiFi application submodule 661 or the 2nd WiFi application submodule 771, when being also used to receive status information,
Prompt information is exported according to status information.
When WiFi Attendant sub-module 88 is according to acquired status information and the first WiFi processing submodule 660 and/or the
Whether two WiFi processing submodule 770 is in the corresponding determining first WiFi processing submodule 660 and/or second of default communications status
WiFi handles the status information of the current WiFi connection of submodule 770, and the WiFi status information connected is sent to corresponding
First WiFi application submodule 661 and/or the 2nd WiFi application submodule 771.
When WiFi Attendant sub-module 88 determines that the first WiFi processing submodule 660 is according to acquired status information
WiFi successful connection state, and the first WiFi processing submodule 660 is in default communications status, i.e. the first WiFi handles submodule
660 be in normal copper when, the status information of WiFi connection is sent to first by WiFi Attendant sub-module 88
WiFi application submodule 661, at this point, the shape information of WiFi connection is that the first WiFi processing submodule 660 has been successfully connected WiFi.
When the first WiFi application submodule 661, which receives the first WiFi processing submodule 660, has been successfully connected the status information of WiFi,
The prompting message that first WiFi application submodule 661 output WiFi has been successfully connected, so that user learns current first WiFi mould
Block 66 has been successfully connected WiFi, can carry out data service by the first WiFi module 66.If working as WiFi Attendant sub-module 88
Determine that the first WiFi processing submodule 660 is in WiFi connection failure state according to the status information of acquired WiFi connection,
WiFi Attendant sub-module 88 is then to the prompt information of the first WiFi application submodule 661 output WiFi connection failure, so that user
Learn 66 connection failure of the first WiFi module.When the first WiFi processing submodule 660 is in WiFi successful connection state, but first
WiFi processing submodule 660 not can be carried out normal data communication, i.e. the first WiFi processing submodule 660 is not in preset logical
When letter state, WiFi Attendant sub-module 88 equally exports the prompt information of WiFi connection failure to the first WiFi application submodule
661.It should be noted that the transmittance process of the status information of WiFi connection and above-mentioned first WiFi mould in the second WiFi module 77
The transmittance process of the status information of WiFi connection is similar in block 66, and details are not described herein.
Further, mobile terminal 100 further includes coding/decoding module 50;
Voice signal is sent to coding/decoding module 50 for acquiring voice signal by audio-frequency module 55;
Coding/decoding module 50 be transferred to after analog-to-digital conversion the to voice signal for when receiving voice signal
One data processing module 70;
First data processing module 70, for carrying out audio processing to the received voice signal of institute and being transferred to the first modulation
Demodulator 30.
First data processing module 70 is also used to be transferred to the second number after carrying out audio processing to the received voice signal of institute
According to processing module 80;
Second data processing module 80 is used for the received transmitting voice signal of institute to second modem 40.
Audio-frequency module 55 includes but is not limited to loudspeaker and microphone, and loudspeaker can be the audio output module 152 in Fig. 1, words
Cylinder can be the microphone 122 in Fig. 1.
Coding/decoding module 50 is used for analog-to-digital conversion and digital-to-analogue conversion, and coding/decoding module 50 can be the encoding and decoding list in Fig. 1
Member 140.
First data processing module 70 and the second data processing module 80 are used to inhibit the echo and noise in communication process,
First data processing module 70 and the second data processing module 80 can be the data processing unit 210 in Fig. 1.
When audio-frequency module 55 collects voice signal, which is sent to coding/decoding module by audio-frequency module 55
50, when coding/decoding module 50 receives voice signal, it is transferred at the first data after carrying out analog-to-digital conversion to the voice signal
Manage module 70.When the first audio processing modules 70 receive voice signal, audio processing is carried out to the voice signal, and will place
Audio signal transmission after reason gives the first modem 30, and the first modem 30 passes through the first radio-frequency module 33 for audio
Signal is sent.
After first data processor module 70 carries out audio processing to voice signal, by treated, voice signal is sent to
Second data processing module 80, the second data processing module 80 is by the transmitting voice signal received to second modem
40, second modem 40 is sent the audio signal by the second radio-frequency module 22.
The present embodiment obtains the information of the first Subscriber Identity Module 90 by the first modem 30, is known according to the first user
Not Ka 90 information communicated with the first LTE network, carry out voice service and data service, second modem 40 obtains second
The information of Subscriber Identity Module 11 is communicated according to the information of second user identification card 11 with the second LTE network, carry out voice service and
Data service;When the first modem 30 is logical by the progress data service of the first LTE network and/or second modem 40
It crosses the second LTE network and carries out data service, and the first WiFi application submodule 661 or the 2nd WiFi application submodule 771 receive
When to WiFi link order, the first WiFi application submodule 661 or the 2nd WiFi application submodule 771 send out WiFi link order
Give WiFi Attendant sub-module 88;When WiFi Attendant sub-module 88 receives WiFi link order, WiFi link order is sent out
Give corresponding first WiFi processing submodule 660 or the 2nd WiFi processing submodule 770;First WiFi handles submodule 660
Or the 2nd WiFi processing submodule 770 according to WiFi link order and corresponding agreement send the status information of WiFi connection to
WiFi Attendant sub-module 88;When WiFi Attendant sub-module 88 determines that WiFi has been successfully connected according to status information, and the first WiFi
It handles submodule 660 and/or the 2nd WiFi processing submodule 770 is in when presetting communications status, WiFi Attendant sub-module 88 is right
The routing configuration of single WiFi data or the routing configuration of double WiFi datas should be started, so that mobile terminal 100 passes through the first WiFi
At least one of module 66, the second WiFi module 77, the communication of the first LTE network and the communication of the second LTE network are two or more
Combination carries out data service.Realizing user by the first WiFi module 66 and the second WiFi module 77 while can access same
A network, or different networks is accessed by the first WiFi module 66 and the second WiFi module 77 respectively, it may be implemented simultaneously
First modem 30 is communicated with the first LTE network and/or second modem 40 is communicated with the second LTE network, is improved
The access efficiency of 100 network of mobile terminal, such as when mobile terminal 100 executes downloading service, by the first WiFi module 66,
At least one of second WiFi module 77, the communication of the first LTE network and the communication of the second LTE network or two or more combinations carry out
Downloading service improves the speed of download of mobile terminal 100.And pass through the first WiFi module 66 of output and the second WiFi module
The status information of 77WiFi connection, so that user can understand the WiFi of the first WiFi module 66 and the second WiFi module 77 in real time
Connection increases the intelligence of the mobile terminal 100, improves user experience.
The first embodiment of communication means of the present invention is proposed referring to Fig. 3.It specifically, is present invention communication referring to Fig. 7, Fig. 7
The flow diagram of the first embodiment of method.
In the present embodiment, communication means includes:
Step S10, the first modem 30 obtains the information of the first Subscriber Identity Module 90, according to the first Subscriber Identity Module
90 information is communicated with the first LTE network, carries out voice service and data service;
Step S20, second modem 40 obtains the information of second user identification card 11, according to second user identification card
11 information is communicated with the second LTE network, carries out voice service and data service;
In this embodiment, mobile terminal 100 includes but is not limited to mobile phone and tablet computer, mobile terminal provided by the invention
100 are mainly used in the twin-channel mobile terminal 100 of double card provided based on two modems, certainly, in other implementations
In example, the communication mechanism of mobile terminal 100 is not limited to dual-channels communication mode provided by the invention, can also be triple channel
And multichannel communication mode more than triple channel.
Mobile terminal 100 is applied to be based on twin-channel communication, and mobile terminal 100 includes, the first WiFi module 66, second
WiFi module 77, the first application processor 10, the first modem 30 being connect with the first application processor 10 and the first number
According to processing module 70, the second application processor 20 being connect with the first application processor 10, and with the second application processor 20
The second modem 40 of connection and the second data processing module 80, wherein the first data processing module 70 and the second data
Processing module 80 connect, in addition, the first modem 30 also respectively with the first Subscriber Identity Module 90 and the first radio-frequency module 33
Connection, second modem 40 are also connect with second user identification card 11 and the second radio-frequency module 22 respectively.First WiFi mould
Block 66 is connect with the first application processor 10, the second WiFi module 77 and the first application processor 10 or the second application processor 20
Connection;First WiFi module 66 includes that the first WiFi application submodule 661 and the first WiFi handle submodule 660;2nd WiFi
Module 77 includes that the 2nd WiFi application submodule 771 and the 2nd WiFi handle submodule 770;First WiFi handles submodule 660
It is connect with first using submodule by WiFi Attendant sub-module 88, the 2nd WiFi handles submodule 770 and services son by WiFi
Module 88 is connect with second using submodule;First WiFi module 66 and the second WiFi module 77 include same WiFi service
Module 88.That is the first WiFi module 66 includes the first WiFi application submodule 661, the first WiFi processing submodule 660 and WiFi
Attendant sub-module 88, the second WiFi module 77 include the 2nd WiFi application submodule 771, the 2nd WiFi processing 770 and of submodule
WiFi Attendant sub-module 88.
First modem 30 is connect with the first Subscriber Identity Module 90, when the first modem 30 needs to carry out voice
When business and/or data service, the first modem 30 obtains the information of the first Subscriber Identity Module 90, and the based on acquisition
The information of one Subscriber Identity Module 90 is communicated with the first LTE network, carries out voice service and/or data service.
Second modem 40 is connect with second user identification card 11, when second modem 40 needs to carry out voice
When business and/or data service, second modem 40 obtains the information of second user identification card 11, and the based on acquisition
The information of two Subscriber Identity Modules 11 is communicated with the second LTE network, carries out voice service and/or data service.
It should be noted that the first modem 30 and second modem 40 can carry out data service simultaneously,
Or while the first modem 30 carries out voice service, second modem 40 carries out data service, or works as
When first modem 30 carries out data service, second modem 40 carries out voice service etc..The communication of first LTE network
It can be identical network operator with the communication of the second LTE network, or different network operators.Such as the first LTE network
The operator of communication is movement, and the operator of the second LTE network communication is connection;Or first LTE network communication operator
For telecommunications, the operator of the second LTE network is also telecommunications.First modem 30 and second modem 40 carry out voice
Network used in business and data service includes but is not limited to LTE network.
The information of first Subscriber Identity Module 90 and the information of second user identification card 11 include but is not limited to ICCID
(Integrate Circuit Card Identity, integrated circuit card identification code) and IMSI (International Mobile
Subscribe Identification Number, international mobile subscriber identity).
First application processor 10 controls mobile terminal 100 by controller 180 in Fig. 1 and interacts with user, to use
Family provides interactive interface.First application processor 10 is used to handle the logical operation of some complexity, is also used to shut user
Net or the operational order of call correspondence are sent to the first modem 30 and the second application processor 20.
First radio-frequency module 33 is directly connect with the first modem 30, for send the first modem 30
Base station network is sent to after data processing, the data that the first radio-frequency module 33 is also used to transmit base station network are sent to
One modem 30.Second radio-frequency module 22 is directly connect with second modem 40, is used for second modem
Base station network, the data that the second radio-frequency module 22 is also used to transmit base station network are sent to after 40 data processings sent
It is sent to second modem 40.First radio-frequency module 33 and the second radio-frequency module 22 can be the mobile communication mould in Fig. 1
Block 112.
In the present embodiment, the effect of the first application processor 10 and the second application processor 20 mainly includes providing for user
Interactive interface, task distribution of 100 operating system of mobile terminal etc..Certainly, the first application processor 10 and the second application processing
There are also the inner frames, including application layer, ccf layer etc. of their own for device 20.In the present invention, the first application processor 10 and
Two application processors 20, most important effect other than handling the logical operation of some complexity, also by user it is related surf the Internet or
The correspondence under operational orders such as make a phone call, send short messages issues the modem respectively connected.
In the present embodiment, the first modem 30 and second modem 40 are contained various and network interaction
The protocol stack of network formats.Wherein, protocol stack contains the protocol code that communication standard provides, such as: LTE (Long Term
Evolution, long term evolution are the long term evolutions for the Universal Mobile Communication System technical standard organized to set up by 3GPP)/
WCDMA (Wideband Code Division Multiple Access, wideband code division multiple access)/GSM (Global System
For Mobile Communication, global system for mobile communications)/TDSCDMA (Time Division-Synchronous
Code Division Multiple Access, TD SDMA)/CDMA 1X is (in CDMA IS-95 standard base
Improved 2.75G technology, support voice-and-data transmission)/EVDO (and Evolution Data Only, can support simultaneously speech and
Data) etc..Mobile terminal 100 either passes through data traffic online, VOLTE when interacting with carrier network
(Voice over LTE, the voice service based on IMS) makes a phone call or CS (Circuit Switched, circuit switching) beats electricity
Words, will be by the agreement of these standards, and modem is equivalent to the container of these consensus standards.Certainly, modulatedemodulate
Adjusting device, there are also some other managerial functions, and such as to SIM, (Subscriber Identity Module, client identify mould
Block card) control etc..Therefore, it if desired surfs the Internet or makes a phone call, mobile terminal 100 then needs the support of modem.
It should be noted that the execution sequence of step S10 and step S20 can first carry out step without successive point
S10, then step S20 is executed, or first carry out step S20, then execute step S10.
Step S30, when the first modem 30 carries out data service and/or the second modulatedemodulate by the first LTE network
Device 40 is adjusted to carry out data service, and the first WiFi application submodule 661 or the 2nd WiFi application submodule by the second LTE network
771 when receiving WiFi link order, and the first WiFi application submodule 661 or the 2nd WiFi application submodule 771 connect WiFi
It connects instruction and is sent to WiFi Attendant sub-module 88;
WiFi link order is sent to pair by step S40 when WiFi Attendant sub-module 88 receives WiFi link order
The first WiFi processing submodule 661 or the 2nd WiFi processing submodule 771 answered;
When the first modem 30 is logical by the progress data service of the first LTE network and/or second modem 40
When crossing the progress data service of the second LTE network, if the first WiFi application submodule 661 or the 2nd WiFi application submodule 771 connect
When receiving WiFi link order, the first WiFi application submodule 661 or the 2nd WiFi application submodule 771 then refer to WiFi connection
Order is sent to WiFi Attendant sub-module 88;When WiFi Attendant sub-module 88 receives the WiFi link order, WiFi service
Module 88 judge the WiFi link order be sent by the first WiFi application submodule 661 or the 2nd WiFi application submodule
771 transmissions, if the WiFi link order is sent by the first WiFi application submodule 661, WiFi Attendant sub-module 88
The WiFi link order is sent to the first WiFi processing submodule 660;If the WiFi link order is applied by the 2nd WiFi
What submodule 771 was sent, which is then sent to the 2nd WiFi processing submodule by WiFi Attendant sub-module 88
770。
Step S50, the first WiFi handle submodule 660 or the 2nd WiFi processing submodule 770 according to WiFi link order
And corresponding agreement sends the status information of WiFi connection to WiFi Attendant sub-module 88;
When the first WiFi processing submodule 660 receives the WiFi link order of the transmission of WiFi Attendant sub-module 88, the
One WiFi handles submodule 660 and is somebody's turn to do according to the WiFi link order and according to the corresponding agreement execution of the WiFi link order
WiFi link order, and the status information of WiFi connection is sent to WiFi Attendant sub-module 88;When the 2nd WiFi handles submodule
When block 770 receives the WiFi link order of the transmission of WiFi Attendant sub-module 88, the 2nd WiFi handles submodule 770 according to this
WiFi link order and the WiFi link order is executed according to the corresponding agreement of WiFi link order, and by WiFi connection
Status information is sent to WiFi Attendant sub-module 88.There are three types of the status informations of WiFi connection, respectively has connected, is connecting
And connection failure.
Further, it includes the first WiFi framework unit 662, the first WiFi agreement list that the first WiFi, which handles submodule 660,
Member 663 and the first WiFi chip 665;It includes the second WiFi framework unit 772, the 2nd WiFi that 2nd WiFi, which handles submodule 770,
Protocol element 773 and the second WiFi chip 775.
It specifically, is a kind of function mould that the first WiFi handles submodule in the embodiment of the present invention referring to Fig. 4 and Fig. 5, Fig. 4
Block figure, Fig. 5 are a kind of functional block diagram that the 2nd WiFi handles submodule in the embodiment of the present invention.
Step S50 includes:
When the first WiFi framework unit 662 or the second WiFi framework unit 772 receive WiFi link order, obtain
The relevant information of WiFi, and relevant information and WiFi link order correspondence are sent to the first WiFi protocol element 663 or the second
WiFi protocol element 773;
When the first WiFi protocol element 663 or the 2nd WiFi protocol element 773 receive relevant information and connect with WiFi and refers to
When enabling, corresponding agreement is selected according to relevant information, and agreement and WiFi link order correspondence are sent to the first WiFi chip
665 or second WiFi chip 775;
When the first WiFi chip 665 or the second WiFi chip 775 receive agreement and WiFi link order, according to agreement
It is connected with WiFi link order correspondence establishment WiFi, and the status information of WiFi connection is sent to WiFi Attendant sub-module 88.
It specifically, is that mobile terminal 100 of the present invention refines circuit theory schematic diagram referring to Fig. 6, Fig. 6.
It includes the first WiFi framework unit 662, the first WiFi protocol element 663, first that first WiFi, which handles submodule 660,
WiFi driving unit 664 and the first WiFi chip 665;It includes the second WiFi framework unit that 2nd WiFi, which handles submodule 770,
772, the 2nd WiFi protocol element 773, the 2nd WiFi driving unit 774 and the second WiFi chip 775.First WiFi framework unit
662 and second WiFi framework unit 772 connect respectively with WiFi Attendant sub-module 88, the first WiFi framework unit 662 and first
WiFi protocol element 663 connects, and the first WiFi protocol element 663 is connect with the first WiFi driving unit 664, the first WiFi driving
Unit 664 is connect with the first WiFi chip 665;Second WiFi framework unit 772 is connect with the 2nd WiFi protocol element 773, the
Two WiFi protocol elements 773 are connect with the 2nd WiFi driving unit 774, the 2nd WiFi driving unit 774 and the second WiFi chip
775 connections.
When the first WiFi framework unit 662 receives the WiFi link order of the transmission of WiFi Attendant sub-module 88, obtain
The relevant information of WiFi, and the relevant information of WiFi and WiFi link order are sent to the first protocol element, wherein WiFi's
Relevant information includes but is not limited to WiFi title, frequency and signal strength.When the first WiFi protocol element 663 receives WiFi
Relevant information and WiFi link order when, the relevant information of the WiFi is written in the configuration file of corresponding agreement, according to
The relevant information of the WiFi determines corresponding agreement, and selects regulation WiFi agreement according to corresponding agreement.First WiFi agreement
The WiFi agreement of selection and WiFi link order are sent to the first WiFi driving unit 664 by unit 663, are driven by the first WiFi
Unit 664 is sent to the first WiFi chip 665.When the first WiFi chip 665 receives the WiFi agreement and WiFi link order
When, WiFi is established with WiFi link order according to the WiFi agreement and is connected.In WiFi connection procedure, the state of WiFi connection is believed
Breath can change, and such as become having connected from connecting, or be changed into connection failure etc. from connecting.As the first WiFi
After chip 665 establishes WiFi connection, the status information of WiFi connection is sent to WiFi Attendant sub-module 88.
Second WiFi framework unit 772 and the 2nd WiFi protocol element 773, the 2nd WiFi driving unit 774, the 2nd WiFi
The process and the first WiFi framework unit 662 and the of WiFi link order are executed between chip 775 and WiFi Attendant sub-module 88
It is held between one WiFi protocol element 663, the first WiFi driving unit 664, the first WiFi chip 665 and WiFi Attendant sub-module 88
Row WiFi link order process is similar, and details are not described herein.
Step S60, when WiFi Attendant sub-module 88 determines that WiFi has been successfully connected according to status information, and at the first WiFi
It manages submodule 660 and/or the 2nd WiFi processing submodule 770 is in when presetting communications status, WiFi Attendant sub-module 88 is corresponding
Start single routing configuration of WiFi data or the routing configuration of double WiFi datas, so that mobile terminal passes through the first WiFi module
66, at least one of the second WiFi module 77, the communication of the first LTE network and the communication of the second LTE network or two or more combinations
Carry out data service.
When WiFi Attendant sub-module 88 receives the first WiFi processing submodule 660 or the 2nd WiFi processing submodule 770
When the status information of the WiFi connection of transmission, according to the status information of WiFi connection determine corresponding WiFi whether successful connection.
If WiFi Attendant sub-module 88 determines that WiFi has been successfully connected according to the status information of WiFi connection, and the first WiFi handles submodule
When block 660 and/or the 2nd WiFi processing submodule 770 are in default communications status, the corresponding starting of WiFi Attendant sub-module 88 is single
The routing configuration of the routing configuration of WiFi data or double WiFi datas.It is mobile after the completion of the routing configuration of single WiFi data
Terminal 100 carries out data service, on this basis, mobile terminal 100 according to the first WiFi module 66 or the second WiFi module 77
Data service can be carried out according to the first LTE network and/or the second LTE network simultaneously;When the routing configuration of double WiFi datas is complete
Cheng Hou, mobile terminal 100 carry out data service according to the first WiFi module 66 and the second WiFi module 77, on this basis, move
Dynamic terminal 100 can carry out data service according to the first LTE network and/or the second LTE network simultaneously.If WiFi Attendant sub-module
88 determine that the first WiFi processing submodule 660 and the 2nd WiFi handle submodule 770 according to the status information of WiFi connection
WiFi is not connected with successfully, then not starting the routing configuration of WiFi.Wherein, default communications status is to work as WiFi to be successfully connected,
User can carry out a kind of state when browsing webpage, viewing video according to the WiFi, i.e. user can access net by WiFi
Page, surfs the Internet etc..Routing configuration is IP address, name on account and the password etc. for configuring WiFi.
Further, step S60 includes:
When WiFi Attendant sub-module 88 determines that WiFi has been successfully connected according to status information, WiFi Attendant sub-module 88 is sent out
Send the acquisition instruction for obtaining IP address to the first WiFi processing submodule 660 and the 2nd WiFi processing submodule 770;
First WiFi handles submodule 660 and the 2nd WiFi processing submodule 770 and sends corresponding IP according to acquisition instruction
Address is to WiFi Attendant sub-module 88;
WiFi Attendant sub-module 88 determines at the first WiFi processing submodule 660 and the 2nd WiFi according to the IP address of acquisition
Submodule 770 is managed whether in default communications status;
If the first WiFi handles submodule 660 or the 2nd WiFi processing submodule 770 is in default communications status, WiFi clothes
Business submodule 88 then starts the routing configuration of single WiFi data, so that mobile terminal 100 passes through the first WiFi module 66, second
At least one of WiFi module 77, the communication of the first LTE network and the communication of the second LTE network or two or more combinations carry out data
Business;
If the first WiFi processing submodule 660 and the 2nd WiFi processing submodule 770 are in default communications status, WiFi
Attendant sub-module 88 then starts the routing configuration of double WiFi datas, so that mobile terminal passes through the first WiFi module 66, second
At least one of WiFi module 77, the communication of the first LTE network and the communication of the second LTE network or two or more combinations carry out data
Business.
When WiFi Attendant sub-module 88 determines that WiFi has been successfully connected according to the status information for receiving WiFi connection,
WiFi Attendant sub-module 88 handles submodule 660 to the first WiFi and the 2nd WiFi processing submodule 770 sends and obtains IP address
Acquisition instruction.If user is the first WiFi module 66 of manipulation at this time, i.e. the state of the first WiFi processing submodule 660 never connects
Switch through to be changed to and have connected, then refers to when the first WiFi driving unit 664 in the first WiFi processing submodule 660 receives the acquisition
When enabling, the first WiFi driving unit 664 starts DHCP (Dynamic Host Configuration Protocol, DynamicHost
Configuration protocol) service, it thus drives the first WiFi chip 665 to carry out eating dishes without rice or wine to interact with all WiFi according to acquisition instruction, obtains
The first IP address for being connected thereto WiFi is taken, and first IP address is cached into the first WiFi framework unit 662, by first
First IP address is sent to WiFi Attendant sub-module 88 by WiFi framework unit 662.When WiFi Attendant sub-module 88 receives
One IP address, and when the first IP address is not sky, WiFi Attendant sub-module 88 determines the first WiFi framework unit 662, first
In default communications status between WiFi protocol element 663, the first WiFi driving unit 664 and the first WiFi chip 665, i.e., the
One WiFi framework unit 662, the first WiFi protocol element 663, the first WiFi driving unit 664 and the first WiFi chip 665 it
Between be in data communication normal condition.If the second WiFi module 77 is not connected with WiFi at this time, the 2nd WiFi handles submodule 770
State have not been changed, always all in not-connected status.WiFi Attendant sub-module 88 directly obtains second according to acquisition instruction
The second IP address stored in WiFi framework unit 772, but second IP address is address blank, i.e. the second WiFi framework unit
772, data not can be carried out between the 2nd WiFi protocol element 773, the 2nd WiFi driving unit 774 and the second WiFi chip 775
Communication.There was only the first WiFi framework unit 662, the first WiFi protocol element 663, the first WiFi driving unit 664 and the at this time
Data communication normal condition is between one WiFi chip 665, WiFi Attendant sub-module 88 then starts the routing of single WiFi data
Setting.When the first WiFi module 66 does not carry out the operation of WiFi connection, and the second WiFi module 77 carries out WiFi attended operation, the
Two WiFi modules 77 carry out the process of WiFi connection and above-mentioned described first WiFi module 66 carries out WiFi attended operation, the
The process that two WiFi modules 77 do not carry out WiFi attended operation is similar, and details are not described herein.When the routing configuration of single WiFi data
After the completion, mobile terminal 100 carries out data service according to the first WiFi module 66 or the second WiFi module 77, on this basis,
Mobile terminal 100 can carry out data service according to the first LTE network and/or the second LTE network simultaneously.
When the first WiFi module 66 is in carrying out WiFi connection procedure, if the second WiFi module 77 has been in WiFi and has connected
State is connect, WiFi Attendant sub-module 88 then gets two IP address according to IP address acquisition instruction, and the two IP address are all
It is not sky, i.e. the first IP address and the second IP address are not sky.At this point, then showing the first WiFi framework unit 662, first
Data communication normal condition is between WiFi protocol element 663, the first WiFi driving unit 664 and the first WiFi chip 665,
And second the second WiFi framework unit 772 in WiFi module 77, the 2nd WiFi protocol element 773, the 2nd WiFi driving unit
774 and second can also carry out normal data communication, i.e. the first WiFi application submodule 661 and between WiFi chip 775
Two WiFi application submodules 771 are set all in default communications status at this point, WiFi Attendant sub-module 88 starts double WiFi routings
It sets.After the completion of the routing configuration of double WiFi datas, mobile terminal 100 is according to the first WiFi module 66 and the second WiFi module 77
Carry out data service, on this basis, mobile terminal 100 can simultaneously according to the first LTE network and/or the second LTE network into
Row data service.
When mobile terminal 100 carries out data service using the first WiFi module 66 and the second WiFi module 77 simultaneously, such as
When mobile terminal 100 is downloaded a video using two WiFi simultaneously, video 100M in total.When WiFi services submodule
Block 88 receives the first WiFi application submodule 661 and the 2nd WiFi application submodule 771 when downloading the instruction of the video, WiFi
Attendant sub-module 88 is according to the signal of current first WiFi application submodule 661 and the WiFi of the 2nd WiFi application submodule 771
Intensity and downloading rate equal part are with corresponding first WiFi processing submodule 660 and the 2nd WiFi processing downloading work of submodule 770
Make, when such as the first WiFi processing 660 signal strength of submodule is greater than the 2nd WiFi processing submodule 770, WiFi Attendant sub-module
88 settings download the 60% of the video by the first WiFi processing submodule 660, i.e. downloading 60M, handle submodule by the 2nd WiFi
770 download the 40% of the video, i.e. downloading 40M.Or WiFi Attendant sub-module 88 is arranged the first WiFi and handles 660 He of submodule
2nd WiFi handles submodule 770 and downloads the video according to the rule divided equally, i.e. the first WiFi handles submodule 660 and downloads 50M,
2nd WiFi submodule downloads 50M, or distributes the first WiFi processing submodule 660 and the 2nd WiFi processing according to preset rules
The content of the video is downloaded required for submodule 770, wherein preset rules are to be arranged according to concrete condition.It should be noted that
First WiFi module 66 and the second WiFi module 77 can use the same WiFi of connection, or the WiFi that connection is different.Or work as
100 first modem of mobile terminal, 30 place system downloads the partial content of the video by the first WiFi module 66, and
Second modem 40 passes through the partial content that the LTE network that communicates with downloads the video, i.e. the mobile terminal 100 at this time
The video is downloaded using the first WiFi module 66 and LTE network simultaneously.Mobile terminal 100 can be according to 66 He of the first WiFi module
How the respective downloading rate of LTE network downloads the video or the first WiFi module 66 and LTE network is respectively downloaded to distribute
50M.Perhaps mobile terminal 100 can download the video using LTE network and LTE network simultaneously or use the 2nd WiFi mould
Block 77 and LTE network download the video etc..
It should be noted that the present embodiment is all to be connected to first with the first WiFi module 66 and the second WiFi module 77
Illustrate in application processor 10.
The present embodiment obtains the information of the first Subscriber Identity Module 90 by the first modem 30, is known according to the first user
Not Ka 90 information communicated with the first LTE network, carry out voice service and data service, second modem 40 obtains second
The information of Subscriber Identity Module 11 is communicated according to the information of second user identification card 11 with the second LTE network, carry out voice service and
Data service;When the first modem 30 is logical by the progress data service of the first LTE network and/or second modem 40
It crosses the second LTE network and carries out data service, and the first WiFi application submodule 661 or the 2nd WiFi application submodule 771 receive
When to WiFi link order, the first WiFi application submodule 661 or the 2nd WiFi application submodule 771 send out WiFi link order
Give WiFi Attendant sub-module 88;When WiFi Attendant sub-module 88 receives WiFi link order, WiFi link order is sent out
Give corresponding first WiFi processing submodule 660 or the 2nd WiFi processing submodule 770;First WiFi handles submodule 660
Or the 2nd WiFi processing submodule 770 according to WiFi link order and corresponding agreement send the status information of WiFi connection to
WiFi Attendant sub-module 88;When WiFi Attendant sub-module 88 determines that WiFi has been successfully connected according to status information, and the first WiFi
It handles submodule 660 and/or the 2nd WiFi processing submodule 770 is in when presetting communications status, WiFi Attendant sub-module 88 is right
The routing configuration of single WiFi data or the routing configuration of double WiFi datas should be started, so that mobile terminal 100 passes through the first WiFi
At least one of module 66, the second WiFi module 77, the communication of the first LTE network and the communication of the second LTE network are two or more
Combination carries out data service.Realizing user by the first WiFi module 66 and the second WiFi module 77 while can access same
A network, or different networks is accessed by the first WiFi module 66 and the second WiFi module 77 respectively, it may be implemented simultaneously
First modem 30 is communicated with the first LTE network and/or second modem 40 is communicated with the second LTE network, is improved
The access efficiency of 100 network of mobile terminal, such as when mobile terminal 100 executes downloading service, by the first WiFi module 66,
At least one of second WiFi module 77, the communication of the first LTE network and the communication of the second LTE network or two or more combinations carry out
Downloading service improves the speed of download of mobile terminal 100.
The second embodiment of communication means of the present invention is proposed referring to Fig. 3 and Fig. 6.It specifically, is the present invention referring to Fig. 8, Fig. 8
The flow diagram of the second embodiment of communication means.
In the present embodiment, communication means includes:
Step S10, the first modem 30 obtains the information of the first Subscriber Identity Module 90, according to the first Subscriber Identity Module
90 information is communicated with the first LTE network, carries out voice service and data service;
Step S20, second modem 40 obtains the information of second user identification card 11, according to second user identification card
11 information is communicated with the second LTE network, carries out voice service and data service;
First modem 30 is connect with the first Subscriber Identity Module 90, when the first modem 30 needs to carry out voice
When business and/or data service, the first modem 30 obtains the information of the first Subscriber Identity Module 90, and the based on acquisition
The information of one Subscriber Identity Module 90 is communicated with the first LTE network, carries out voice service and/or data service.
Second modem 40 is connect with second user identification card 11, when second modem 40 needs to carry out voice
When business and/or data service, second modem 40 obtains the information of second user identification card 11, and the based on acquisition
The information of two Subscriber Identity Modules 11 is communicated with the second LTE network, carries out voice service and/or data service.
Step S30, when the first modem 30 carries out data service and/or the second modulatedemodulate by the first LTE network
Device 40 is adjusted to carry out data service, and the first WiFi application submodule 661 or the 2nd WiFi application submodule by the second LTE network
771 when receiving WiFi link order, and the first WiFi application submodule 661 or the 2nd WiFi application submodule 771 connect WiFi
It connects instruction and is sent to WiFi Attendant sub-module 88;
WiFi link order is sent to pair by step S40 when WiFi Attendant sub-module 88 receives WiFi link order
The first WiFi processing submodule 661 or the 2nd WiFi processing submodule 771 answered;
When the first modem 30 is logical by the progress data service of the first LTE network and/or second modem 40
When crossing the progress data service of the second LTE network, if the first WiFi application submodule 661 or the 2nd WiFi application submodule 771 connect
When receiving WiFi link order, the first WiFi application submodule 661 or the 2nd WiFi application submodule 771 then refer to WiFi connection
Order is sent to WiFi Attendant sub-module 88;When WiFi Attendant sub-module 88 receives the WiFi link order, WiFi service
Module 88 judge the WiFi link order be sent by the first WiFi application submodule 661 or the 2nd WiFi application submodule
771 transmissions, if the WiFi link order is sent by the first WiFi application submodule 661, WiFi Attendant sub-module 88
The WiFi link order is sent to the first WiFi processing submodule 660;If the WiFi link order is applied by the 2nd WiFi
What submodule 771 was sent, which is then sent to the 2nd WiFi processing submodule by WiFi Attendant sub-module 88
770。
Step S50, the first WiFi handle submodule 660 or the 2nd WiFi processing submodule 770 according to WiFi link order
And corresponding agreement sends the status information of WiFi connection to WiFi Attendant sub-module 88;
When the first WiFi processing submodule 660 receives the WiFi link order of the transmission of WiFi Attendant sub-module 88, the
One WiFi handles submodule 660 and is somebody's turn to do according to the WiFi link order and according to the corresponding agreement execution of the WiFi link order
WiFi link order, and the status information of WiFi connection is sent to WiFi Attendant sub-module 88;When the 2nd WiFi handles submodule
When block 770 receives the WiFi link order of the transmission of WiFi Attendant sub-module 88, the 2nd WiFi handles submodule 770 according to this
WiFi link order and the WiFi link order is executed according to the corresponding agreement of WiFi link order, and by WiFi connection
Status information is sent to WiFi Attendant sub-module 88.There are three types of the status informations of WiFi connection, respectively has connected, is connecting
And connection failure.
Step S60, when WiFi Attendant sub-module 88 determines that WiFi has been successfully connected according to status information, and at the first WiFi
It manages submodule 660 and/or the 2nd WiFi processing submodule 770 is in when presetting communications status, WiFi Attendant sub-module 88 is corresponding
Start single routing configuration of WiFi data or the routing configuration of double WiFi datas, so that mobile terminal passes through the first WiFi module
66, at least one of the second WiFi module 77, the communication of the first LTE network and the communication of the second LTE network or two or more combinations
Carry out data service.
When WiFi Attendant sub-module 88 receives the first WiFi processing submodule 660 or the 2nd WiFi processing submodule 770
When the status information of the WiFi connection of transmission, according to the status information of WiFi connection determine corresponding WiFi whether successful connection.
If WiFi Attendant sub-module 88 determines that WiFi has been successfully connected according to the status information of WiFi connection, and the first WiFi handles submodule
When block 660 and/or the 2nd WiFi processing submodule 770 are in default communications status, the corresponding starting of WiFi Attendant sub-module 88 is single
The routing configuration of the routing configuration of WiFi data or double WiFi datas.If WiFi Attendant sub-module 88 is according to the shape of WiFi connection
State information determines that the first WiFi processing submodule 660 and the WiFi of the 2nd WiFi processing submodule 770 are all not connected with successfully, then not
Start the routing configuration of WiFi.After the completion of the routing configuration of single WiFi data, mobile terminal 100 is according to the first WiFi module 66
Or second WiFi module 77 carry out data service, on this basis, mobile terminal 100 can simultaneously according to the first LTE network and/
Or second LTE network carry out data service;After the completion of the routing configuration of double WiFi datas, mobile terminal 100 is according to first
WiFi module 66 and the second WiFi module 77 carry out data service, and on this basis, mobile terminal 100 can be simultaneously according to first
LTE network and/or the second LTE network carry out data service.Wherein, default communications status is to work as WiFi to be successfully connected, user
A kind of state when browsing webpage, viewing video can be carried out according to the WiFi, i.e. user can access webpage by WiFi, into
Row online etc..Routing configuration is IP address, name on account and the password etc. for configuring WiFi.
The status information of WiFi connection is sent to the first WiFi application submodule by step S70, WiFi Attendant sub-module 88
661 or the 2nd WiFi application submodule 771;
Step S80, when the first WiFi application submodule 661 or the 2nd WiFi application submodule 771 receive status information
When, prompt information is exported according to status information.
When WiFi Attendant sub-module 88 is according to acquired status information and the first WiFi processing submodule 660 and/or the
Whether two WiFi processing submodule 770 is in the corresponding determining first WiFi processing submodule 660 and/or second of default communications status
WiFi handles the status information of the current WiFi connection of submodule 770, and the WiFi status information connected is sent to corresponding
First WiFi application submodule 661 and/or the 2nd WiFi application submodule 771.
When WiFi Attendant sub-module 88 determines that the first WiFi processing submodule 660 is according to acquired status information
WiFi successful connection state, and the first WiFi processing submodule 660 is in default communications status, i.e. the first WiFi handles submodule
660 be in normal copper when, the status information of WiFi connection is sent to first by WiFi Attendant sub-module 88
WiFi application submodule 661, at this point, the shape information of WiFi connection is that the first WiFi processing submodule 660 has been successfully connected WiFi.
When the first WiFi application submodule 661, which receives the first WiFi processing submodule 660, has been successfully connected the status information of WiFi,
The prompting message that first WiFi application submodule 661 output WiFi has been successfully connected, so that user learns current first WiFi mould
Block 66 has been successfully connected WiFi, can carry out data service by the first WiFi module 66.If working as WiFi Attendant sub-module 88
Determine that the first WiFi processing submodule 660 is in WiFi connection failure state according to the status information of acquired WiFi connection,
WiFi Attendant sub-module 88 is then to the prompt information of the first WiFi application submodule 661 output WiFi connection failure, so that user
Learn 66 connection failure of the first WiFi module.When the first WiFi processing submodule 660 is in WiFi successful connection state, but first
WiFi processing submodule 660 not can be carried out normal data communication, i.e. the first WiFi processing submodule 660 is not in preset logical
When letter state, WiFi Attendant sub-module 88 equally exports the prompt information of WiFi connection failure to the first WiFi application submodule
661.It should be noted that the transmittance process of the status information of WiFi connection and above-mentioned first WiFi mould in the second WiFi module 77
The transmittance process of the status information of WiFi connection is similar in block 66, and details are not described herein.
Further, communication means further include:
Audio-frequency module 55 acquires voice signal, and voice signal is sent to coding/decoding module 50;
When coding/decoding module 50 receives voice signal, coding/decoding module 50 passes after carrying out analog-to-digital conversion to voice signal
It is defeated by the first data processing module 70;
The received voice signal of first 70 pairs of data processing module institute carries out audio processing and is transferred to the first modulation /demodulation
Device 30.
The received voice signal of first 70 pairs of data processing module institute is transferred to the second data processing after carrying out audio processing
Module 80;
Second data processing module 80 is by the received transmitting voice signal of institute to second modem 40.
Audio-frequency module 55 includes but is not limited to loudspeaker and microphone, and loudspeaker can be the audio output module 152 in Fig. 1, words
Cylinder can be the microphone 122 in Fig. 1.
Coding/decoding module 50 is used for analog-to-digital conversion and digital-to-analogue conversion, and coding/decoding module 50 can be the encoding and decoding list in Fig. 1
Member 140.
First data processing module 70 and the second data processing module 80 are used to inhibit the echo and noise in communication process,
First data processing module 70 and the second data processing module 80 can be the data processing unit 210 in Fig. 1.
When audio-frequency module 55 collects voice signal, which is sent to coding/decoding module by audio-frequency module 55
50, when coding/decoding module 50 receives voice signal, it is transferred at the first data after carrying out analog-to-digital conversion to the voice signal
Manage module 70.When the first audio processing modules 70 receive voice signal, audio processing is carried out to the voice signal, and will place
Audio signal transmission after reason gives the first modem 30, and the first modem 30 passes through the first radio-frequency module 33 for audio
Signal is sent.
After first data processor module 70 carries out audio processing to voice signal, by treated, voice signal is sent to
Second data processing module 80, the second data processing module 80 is by the transmitting voice signal received to second modem
40, second modem 40 is sent the audio signal by the second radio-frequency module 22.
The status information that the present embodiment is connected by exporting the first WiFi module 66 with the second WiFi module 77WiFi, for
User can understand the WiFi connection of the first WiFi module 66 and the second WiFi module 77 in real time, increase the mobile terminal
100 intelligence, improves user experience.
For illustrative purposes, the description of front has used specific term, to provide a thorough understanding of the present invention.So
And it will be apparent to those skilled in the art that not needing concrete details to practice the present invention.The present invention
The foregoing description of specific embodiment be to present for purposes of illustration and description.They are not intended in detail or send out this
It is bright to be limited to disclosed precise forms.In view of religious doctrine above, many modifications and variations are possible.In order to best explain this
The principle and its practical application of invention and these embodiments have shown and described, to enable others skilled in the art
Best using the present invention and with the various embodiments for being suitable for the expected specific various modifications used.It is intended to model of the invention
It encloses by following claims and its equivalent and limits.
Claims (10)
1. a kind of mobile terminal, which is characterized in that the mobile terminal includes the first WiFi module, the second WiFi module, WiFi
Attendant sub-module, audio-frequency module, the first modem and second modem, wherein first WiFi module includes
First WiFi application submodule and the first WiFi handle submodule, and second WiFi module includes the 2nd WiFi application submodule
Submodule is handled with the 2nd WiFi, first WiFi module and second WiFi module include the same WiFi service submodule
Block, the first WiFi processing submodule are connect by the WiFi Attendant sub-module with the first WiFi application submodule,
The 2nd WiFi processing submodule is connect by the WiFi Attendant sub-module with the 2nd WiFi application submodule;
First modem, for obtaining the information of the first Subscriber Identity Module, according to first Subscriber Identity Module
Information is communicated with the first LTE network, carries out voice service and data service;
The second modem, for obtaining the information of second user identification card, according to the second user identification card
Information is communicated with the second LTE network, carries out voice service and data service;
The first WiFi application submodule or the 2nd WiFi application submodule, for leading to when first modem
It crosses the first LTE network progress data service and/or the second modem is counted by second LTE network
According to business, and when receiving WiFi link order, the WiFi link order is sent to the WiFi Attendant sub-module;
The WiFi Attendant sub-module, for when receiving the WiFi link order, the WiFi link order to be sent
Submodule is handled to the corresponding first WiFi processing submodule or the 2nd WiFi;
First WiFi processing submodule or the 2nd WiFi handle submodule, for according to the WiFi link order with
And corresponding agreement sends the status information of WiFi connection to the WiFi Attendant sub-module;
The WiFi Attendant sub-module is also used to determine that WiFi has been successfully connected according to the state information, and described first
WiFi handles submodule and/or the 2nd WiFi processing submodule is in when presetting communications status, corresponding starting list WiFi number
According to routing configuration or double WiFi datas routing configuration, for mobile terminal pass through first WiFi module, described second
WiFi module, first LTE network communication and second LTE network communication at least one of or it is two or more combine into
The row data service;
Wherein, the first WiFi processing submodule includes the first WiFi framework unit, the first WiFi protocol element and first
WiFi chip;The 2nd WiFi processing submodule includes the second WiFi framework unit, the 2nd WiFi protocol element and second
WiFi chip, the first WiFi framework unit and the second WiFi framework unit are connect with WiFi Attendant sub-module respectively;
The first WiFi framework unit or the second WiFi framework unit are also used to that the WiFi link order ought be received
When, the relevant information of WiFi is obtained, and the relevant information and WiFi link order correspondence are sent to described first
WiFi protocol element or the 2nd WiFi protocol element;
The first WiFi protocol element or the 2nd WiFi protocol element are also used to that the relevant information and institute ought be received
When stating WiFi link order, corresponding agreement is selected according to the relevant information, corresponding agreement is written into the relevant information
In configuration file, and the agreement and WiFi link order correspondence are sent to first WiFi chip or described second
WiFi chip;
First WiFi chip or second WiFi chip, are also used to receive the agreement and the WiFi link order
When, the status information that connects with the WiFi link order correspondence establishment WiFi according to the agreement, and the WiFi is connected
It is sent to the WiFi Attendant sub-module.
2. mobile terminal as described in claim 1, which is characterized in that the WiFi Attendant sub-module is also used to when according to institute
When stating status information and determining that WiFi has been successfully connected, sends and obtain the acquisition instruction of IP address and handle submodule to the first WiFi
Block and the 2nd WiFi handle submodule;
The first WiFi processing submodule and the 2nd WiFi handle submodule, are also used to be sent according to the acquisition instruction
Corresponding IP address gives the WiFi Attendant sub-module;
The WiFi Attendant sub-module is also used to determine the first WiFi processing submodule and described according to the IP address of acquisition
Whether the 2nd WiFi processing submodule is in default communications status;
The WiFi Attendant sub-module, if being also used to the first WiFi processing submodule or the 2nd WiFi processing submodule
In default communications status, then start the routing configuration of single WiFi data, for mobile terminal by first WiFi module,
Second WiFi module, first LTE network communication and second LTE network communication at least one of or two kinds with
Upper combination carries out the data service;
The WiFi Attendant sub-module, if being also used to the first WiFi processing submodule and the 2nd WiFi processing submodule
It is in default communications status, then starts the routing configuration of double WiFi datas, so that mobile terminal passes through the first WiFi mould
At least one of block, second WiFi module, first LTE network communication and second LTE network communication or two
Kind combination of the above carries out the data service.
3. mobile terminal as claimed in claim 1 or 2, which is characterized in that the WiFi Attendant sub-module is also used to WiFi
Status information is sent to the first WiFi application submodule or the 2nd WiFi application submodule;
The first WiFi application submodule or the 2nd WiFi application submodule, are also used to receive the status information
When, prompt information is exported according to the state information.
4. mobile terminal as described in claim 1, which is characterized in that the mobile terminal further includes coding/decoding module and first
Data processing module;
The voice signal is sent to coding/decoding module for acquiring voice signal by the audio-frequency module;
The coding/decoding module, for being passed after carrying out analog-to-digital conversion to the voice signal when receiving the voice signal
It is defeated by the first data processing module;
First data processing module, for carrying out audio processing to the received voice signal of institute and being transferred to described the
One modem.
5. mobile terminal as claimed in claim 4, which is characterized in that second data processing module of mobile terminal;
First data processing module is also used to be transferred to second after the voice signal received to institute carries out audio processing
Data processing module;
Second data processing module, for giving the received transmitting voice signal of institute to the second modem.
6. a kind of communication means, which is characterized in that the communication means comprising steps of
There is provided the first modem, second modem, audio-frequency module, WiFi Attendant sub-module, the first WiFi module and
Second WiFi module, the first application processor connecting with first modem connect with the second modem
The second application processor connect, wherein first WiFi module includes that the first WiFi application submodule and the first WiFi are handled
Submodule;Second WiFi module include the 2nd WiFi application submodule and the 2nd WiFi processing submodule, described first
WiFi module and second WiFi module include the same WiFi Attendant sub-module, and the first WiFi processing submodule passes through
The WiFi Attendant sub-module is connect with the first WiFi application submodule, and the 2nd WiFi processing submodule passes through described
WiFi Attendant sub-module is connect with the 2nd WiFi application submodule;
First modem obtains the information of the first Subscriber Identity Module, according to the information of first Subscriber Identity Module with
The communication of first LTE network, carries out voice service and data service;
The second modem obtains the information of second user identification card, according to the information of the second user identification card with
The communication of second LTE network, carries out voice service and data service;
When first modem carries out data service and/or second modulation /demodulation by first LTE network
Device carries out data service, and the first WiFi application submodule or the 2nd WiFi application by second LTE network
When submodule receives WiFi link order, the first WiFi application submodule or the 2nd WiFi application submodule are by institute
It states WiFi link order and is sent to the WiFi Attendant sub-module;
When the WiFi Attendant sub-module receives the WiFi link order, the WiFi link order is sent to correspondence
The first WiFi processing submodule or the 2nd WiFi handle submodule;
First WiFi processing submodule or the 2nd WiFi processing submodule are according to the WiFi link order and right
The agreement answered sends the status information of WiFi connection to the WiFi Attendant sub-module;
When the WiFi Attendant sub-module according to the state information determine WiFi be successfully connected, and the first WiFi handle
When submodule and/or the 2nd WiFi processing submodule are in default communications status, the WiFi Attendant sub-module correspondence is opened
The dynamic list routing configuration of WiFi data or the routing configuration of double WiFi datas, so that mobile terminal passes through the first WiFi mould
At least one of block, second WiFi module, first LTE network communication and second LTE network communication or two
Kind combination of the above carries out the data service;
Wherein, the first WiFi processing submodule includes the first WiFi framework unit, the first WiFi protocol element and first
WiFi chip;The 2nd WiFi processing submodule includes the second WiFi framework unit, the 2nd WiFi protocol element and second
WiFi chip, the first WiFi framework unit and the second WiFi framework unit are connect with WiFi Attendant sub-module respectively,
First WiFi processing submodule or the 2nd WiFi processing submodule are according to the WiFi link order and corresponding
Agreement send WiFi connection status information include: to the step of WiFi Attendant sub-module
When the first WiFi framework unit or the second WiFi framework unit receive the WiFi link order, obtain
The relevant information of WiFi, and the relevant information and WiFi link order correspondence are sent to the first WiFi agreement list
The first or described 2nd WiFi protocol element;
When the first WiFi protocol element or the 2nd WiFi protocol element receive the relevant information and the WiFi
When link order, corresponding agreement is selected according to the relevant information, the relevant information is written to the configuration text of corresponding agreement
In part, and the agreement and WiFi link order correspondence are sent to first WiFi chip or the 2nd WiFi core
Piece;
When first WiFi chip or second WiFi chip receive the agreement and the WiFi link order, root
It is connected according to the agreement with the WiFi link order correspondence establishment WiFi, and the WiFi status information connected is sent to
The WiFi Attendant sub-module.
7. communication means as claimed in claim 6, which is characterized in that described when the WiFi Attendant sub-module is according to the shape
State information determines that WiFi has been successfully connected, and the first WiFi processing submodule and/or the 2nd WiFi handle submodule
When in default communications status, the corresponding routing configuration or double WiFi datas for starting single WiFi data of the WiFi Attendant sub-module
Routing configuration, so that mobile terminal passes through first WiFi module, second WiFi module, first LTE network
The step of at least one of communication and second LTE network communication or two or more combinations carry out the data service is wrapped
It includes:
When the WiFi Attendant sub-module determines that WiFi has been successfully connected according to the state information, the WiFi services submodule
Block sends the acquisition instruction for obtaining IP address to the first WiFi processing submodule and the 2nd WiFi processing submodule;
The first WiFi processing submodule and the 2nd WiFi processing submodule send corresponding according to the acquisition instruction
IP address gives the WiFi Attendant sub-module;
The WiFi Attendant sub-module determines that the first WiFi handles submodule and described second according to the IP address of acquisition
Whether WiFi processing submodule is in default communications status;
If the first WiFi processing submodule or the 2nd WiFi processing submodule are in default communications status, the WiFi
Attendant sub-module then starts the routing configuration of single WiFi data, so that mobile terminal passes through first WiFi module, described the
At least one of two WiFi modules, first LTE network communication and second LTE network communication or two or more combinations
Carry out the data service;
If the first WiFi processing submodule and the 2nd WiFi processing submodule are in default communications status, described
WiFi Attendant sub-module then starts the routing configuration of double WiFi datas, so that mobile terminal passes through first WiFi module, institute
State at least one of the second WiFi module, first LTE network communication and second LTE network communication or two or more
Combination carries out the data service.
8. communication means as claimed in claims 6 or 7, which is characterized in that described when the WiFi Attendant sub-module is according to institute
It states status information and determines that WiFi has been successfully connected, and the first WiFi processing submodule and/or the 2nd WiFi processing
When module is in default communications status, the corresponding routing configuration for starting single WiFi data of the WiFi Attendant sub-module or double WiFi
After the step of routing configuration of data, further includes:
WiFi status information is sent to the first WiFi application submodule or described second by the WiFi Attendant sub-module
WiFi application submodule;
When the first WiFi application submodule or the 2nd WiFi application submodule receive the status information, according to
The status information exports prompt information.
9. communication means as claimed in claim 6, which is characterized in that first modem obtains first user
The step of information of identification card is communicated according to the information of first Subscriber Identity Module with the first LTE network, carries out voice service
Include:
The audio-frequency module acquires voice signal, and the voice signal is sent to coding/decoding module;
When the coding/decoding module receives the voice signal, the coding/decoding module carries out modulus to the voice signal
The first data processing module is transferred to after conversion;
The first data processing module voice signal received to institute carries out audio processing and is transferred to first modulatedemodulate
Adjust device.
10. communication means as claimed in claim 9, which is characterized in that described when the coding/decoding module receives institute's predicate
When sound signal, the coding/decoding module is to the step for being transferred to the first data processing module after voice signal progress analog-to-digital conversion
After rapid, further includes:
First data processing module voice signal received to institute is transferred at the second data after carrying out audio processing
Manage module;
Second data processing module gives the received transmitting voice signal of institute to the second modem.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610071091.7A CN105722060B (en) | 2016-01-30 | 2016-01-30 | Mobile terminal and its communication means |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610071091.7A CN105722060B (en) | 2016-01-30 | 2016-01-30 | Mobile terminal and its communication means |
Publications (2)
Publication Number | Publication Date |
---|---|
CN105722060A CN105722060A (en) | 2016-06-29 |
CN105722060B true CN105722060B (en) | 2019-09-20 |
Family
ID=56155233
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201610071091.7A Active CN105722060B (en) | 2016-01-30 | 2016-01-30 | Mobile terminal and its communication means |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN105722060B (en) |
Families Citing this family (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108377575B (en) * | 2016-11-08 | 2020-07-24 | 展讯通信(上海)有限公司 | Multi-card mobile terminal and service processing method thereof |
CN108377225B (en) | 2016-11-14 | 2021-04-02 | 展讯通信(上海)有限公司 | Multi-channel terminal service processing method and device |
US11974218B2 (en) | 2017-03-31 | 2024-04-30 | British Telecommunications Public Limited Company | Access network selection |
EP3603211B1 (en) | 2017-03-31 | 2022-03-30 | British Telecommunications public limited company | Network discovery |
EP3603210A1 (en) * | 2017-03-31 | 2020-02-05 | British Telecommunications Public Limited Company | Access network selection |
CN109429290B (en) * | 2017-08-23 | 2021-04-23 | 展讯通信(上海)有限公司 | Data transmission control device and data flow control method |
US11337077B2 (en) | 2018-03-29 | 2022-05-17 | British Telecommunications Public Limited Company | Method of channel selection in a wireless network |
EP3868144B1 (en) | 2018-10-16 | 2023-11-22 | British Telecommunications public limited company | Measuring channel performance in wireless local area networks |
CN111901897A (en) * | 2020-07-28 | 2020-11-06 | Tcl通讯(宁波)有限公司 | Data downloading method and device, storage medium and terminal |
CN116055988B (en) * | 2022-05-30 | 2023-10-20 | 荣耀终端有限公司 | Dual-card communication method and terminal equipment |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102006679A (en) * | 2010-10-27 | 2011-04-06 | 深圳市阿尔斯电信技术有限公司 | Dual-mode mobile phone for three-network fusion system based on internet and telephone network |
CN104219373A (en) * | 2013-05-31 | 2014-12-17 | 深圳富泰宏精密工业有限公司 | Dual-mode cell phone, and system and method for controlling communication of dual-mode cell phone |
CN104640166A (en) * | 2014-10-29 | 2015-05-20 | 小米科技有限责任公司 | Communication method and device |
CN105101173A (en) * | 2015-07-20 | 2015-11-25 | 努比亚技术有限公司 | Multi-data-channel-based data loading apparatus and method |
-
2016
- 2016-01-30 CN CN201610071091.7A patent/CN105722060B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102006679A (en) * | 2010-10-27 | 2011-04-06 | 深圳市阿尔斯电信技术有限公司 | Dual-mode mobile phone for three-network fusion system based on internet and telephone network |
CN104219373A (en) * | 2013-05-31 | 2014-12-17 | 深圳富泰宏精密工业有限公司 | Dual-mode cell phone, and system and method for controlling communication of dual-mode cell phone |
CN104640166A (en) * | 2014-10-29 | 2015-05-20 | 小米科技有限责任公司 | Communication method and device |
CN105101173A (en) * | 2015-07-20 | 2015-11-25 | 努比亚技术有限公司 | Multi-data-channel-based data loading apparatus and method |
Also Published As
Publication number | Publication date |
---|---|
CN105722060A (en) | 2016-06-29 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN105722060B (en) | Mobile terminal and its communication means | |
CN105656500B (en) | Mobile terminal and communication means | |
CN105682191A (en) | Mobile terminal and Wi-Fi control method | |
CN103281797A (en) | Mobile terminal and method of transmitting business data by same | |
CN107454615B (en) | Set top box double-wifi control method | |
CN103733716B (en) | The control method of information processing equipment, communication system and information processing equipment | |
CN105744648B (en) | Mobile terminal and its communication means | |
CN105578509A (en) | Multi-channel based data service processing method and apparatus | |
CN105722119B (en) | Mobile terminal and its method for upgrading system | |
CN101925203A (en) | Mobile terminal | |
CN105577450A (en) | System upgrade device and method | |
CN105744645B (en) | Mobile terminal and its be based on twin-channel communication means | |
CN105744505B (en) | Mobile terminal and its method for upgrading system | |
CN105491513A (en) | Network conversation method and terminal | |
CN105117751A (en) | Two-dimensional code transmission method and apparatus | |
CN105611067B (en) | Mobile terminal and its upgrade method | |
CN105554306B (en) | Mobile terminal and its dual-chip system upgrade method | |
CN105657732B (en) | Mobile terminal and its method for upgrading system | |
CN105681091B (en) | Update device and upgrade method | |
CN105763722B (en) | Mobile terminal and its method for upgrading system | |
CN105744651B (en) | Mobile terminal and its communication means | |
JP2021510020A (en) | Wireless communication method and equipment | |
CN105611068B (en) | Mobile terminal and method for upgrading system | |
US20080233887A1 (en) | Classmark Change Message System and Method | |
JP2018078445A (en) | Communication terminal, control method of communication terminal, and control program |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |