CN107071165A

CN107071165A - Data transmission system and method

Info

Publication number: CN107071165A
Application number: CN201710204581.4A
Authority: CN
Inventors: 王朝; 车晓东
Original assignee: Nubia Technology Co Ltd
Current assignee: Nubia Technology Co Ltd
Priority date: 2017-03-30
Filing date: 2017-03-30
Publication date: 2017-08-18
Anticipated expiration: 2037-03-30
Also published as: CN107071165B

Abstract

The invention discloses a kind of data transmission system and method, this method is applied to mobile terminal and the external equipment being connected by preset interface with mobile terminal, mobile terminal includes the first application processor and the first modem being connected with entity user identification card, and external equipment includes second modem and is embedded with the second application processor of virtual user identifying card；When the second application processor for entering wake-up states from resting state by keyword of shaking hands, which detects data, sends instruction, the packet in transmission state is whether there is in detection preset interface；If not there is no the packet in transmission state in preset interface, after the first preset time, packet to be sent is sent to the first application processor in wake-up states by the second application processor by preset interface.The present invention is realized during mobile terminal realizes double LTE communications by external equipment, improves the accuracy rate of the packet transmitted by mobile terminal identification external equipment.

Description

Data transmission system and method

Technical field

The present invention relates to communication technical field, more particularly to a kind of data transmission system and method.

Background technology

With the development of mobile communication technology, increasing mobile terminal such as smart mobile phone has the work(of double card bilateral Can so that user realize speech business it is standby simultaneously, data service link can be set up.Existing mobile terminal can be realized Two SIM (Subscriber Identity Module, subscriber identification card) cards are surfed the Net simultaneously, but an if SIM 4G (the 4th Generation Mobile Communication Technology, forth generation mobile communication skill on card Art), such as LTE (Long Term Evolution, Long Term Evolution), another card can only go up 3G (3rd Generation, 3rd generation mobile communication technology) network or 2G (2-Generation wireless telephone technology, Two generation mobile communication technical specifications), i.e. two SIM cards can not use 4G networks simultaneously.Because two cards in mobile terminal are complete When opening, only one card is to use 4G networks, and another card can only use 2G or 3G network, cause data in mobile terminal to transmit It is less efficient.If two SIM cards will use 4G networks simultaneously, it is necessary to two modems, and there was only one in mobile terminal Individual modem.

Therefore, it is mobile to improve data transmission efficiency in order that two SIM cards in mobile terminal support double LTE simultaneously Terminal can be connected with external equipment and (be provided with modem in the external equipment), so that two SIM cards pair of mobile terminal Different modems are answered, so as to realize double LTE communication functions.

But, current mobile terminal and external equipment are carried out in transmission of data packets, if external equipment is whole to movement Hold the speed of transmission packet too fast, multiple identification of data packets that mobile terminal can send external equipment are a packet, Data interaction between mobile terminal and external equipment is caused the situation of identification mistake occur.

The content of the invention

It is a primary object of the present invention to propose a kind of data transmission system and method, it is intended to solve mobile terminal pass through it is outer Connect during the double LTE communications of equipment realization, the technology that identification mistake occurs in data interaction between mobile terminal and external equipment is asked Topic.

To achieve the above object, a kind of data transmission system that the present invention is provided, the data transmission system includes movement Terminal and external equipment, the mobile terminal are connected by preset interface with the external equipment, and the mobile terminal includes the One application processor and the first modem being connected with entity user identification card, the external equipment include the second modulatedemodulate Adjust device and be embedded with the second application processor of virtual user identifying card；

Second application processor, for being detected after wake-up states are entered from resting state by keyword of shaking hands When data send instruction, detect and whether there is the packet in transmission state in the preset interface；

If second application processor is additionally operable in the preset interface not no presence of the packet in transmission state, After the first preset time, packet to be sent is sent to described in wake-up states by the preset interface One application processor.

Alternatively, second application processor is additionally operable to that the first data interaction request ought be received in a dormant state When, send first and shake hands keyword to first application processor, enter first from resting state and send state；

Second application processor is additionally operable to anti-when receiving first application processor in the second preset time Feedback with described first shake hands keyword corresponding second shake hands keyword when, shake hands keyword from described the according to described second One transmission state enters wake-up states.

Alternatively, first application processor, for second application processor ought to be received in a dormant state Described first sent shake hands keyword when, whether the keyword of shaking hands of detection described first is residual bag；

If it is not residual bag that first application processor, which is additionally operable to the described first keyword of shaking hands, enters second and send shape State, and feed back described second and shake hands keyword to second application processor；

First application processor is additionally operable to when feedback described second shakes hands keyword to second application processor Afterwards, wake-up states are entered from the second transmission state.

Alternatively, if second application processor is additionally operable to not receive described second in second preset time Shake hands keyword, then resend described first and shake hands keyword to first application processor；

If second application processor be additionally operable to resend described first shake hands keyword to described first application After processor, do not receive described second also in second preset time and shake hands keyword, then into resting state.

Alternatively, first application processor is additionally operable to work as receives the packet to be sent in wake-up states When, whether detection receives the second data interaction request in the 3rd preset time；

If first application processor is additionally operable to not receive the second data friendship in the 3rd preset time Mutually request, then enter resting state from wake-up states.

In addition, to achieve the above object, the present invention also proposes a kind of data transmission method, the data transmission method application In mobile terminal and the external equipment being connected with the mobile terminal by preset interface, the mobile terminal includes first should The first modem being connected with processor and with entity user identification card, the external equipment includes second modem With the second application processor for being embedded with virtual user identifying card；

When second application processor for entering wake-up states from resting state by keyword of shaking hands detects data When sending instruction, detect and whether there is the packet in transmission state in the preset interface；

If not there is no the packet in transmission state, after the first preset time, institute in the preset interface State the second application processor by the preset interface by packet to be sent be sent in wake-up states described first should Use processor.

Alternatively, it is described when second application processor for entering wake-up states from resting state by keyword of shaking hands When detecting data and sending instruction, the step of detecting the packet that whether there is in the preset interface in transmission state it Before, in addition to：

When second application processor in a dormant state receives the first data interaction request, send first and hold Hand keyword gives first application processor, and second application processor enters first from resting state and sends state；

When receiving being shaken hands keyword with described first for first application processor feedback in the second preset time Corresponding second shake hands keyword when, second application processor according to described second shake hands keyword from described first send State enters wake-up states.

Alternatively, the data transmission method also includes：

When first application processor in a dormant state is received described in the second application processor transmission First shake hands keyword when, whether the keyword of shaking hands of first application processor detection described first is residual bag；

If the described first keyword of shaking hands is not residual bag, first application processor enters second and sends state, and Feed back described second and shake hands keyword to second application processor；

After feeding back described second and shaking hands keyword to second application processor, first application processor is from the Two transmission states enter wake-up states.

Alternatively, it is described to be asked when second application processor in the resting state receives the first data interaction When asking, send first and shake hands keyword to first application processor, second application processor enters from resting state After the step of first transmission state, in addition to：

If second application processor does not receive described second in second preset time and shaken hands keyword, Resend described first and shake hands keyword to first application processor；

If shaking hands keyword to after first application processor resending described first, the second application processing Device does not receive described second also in second preset time and shaken hands keyword, then into resting state.

Alternatively, if not there is no the packet in transmission state in the preset interface, pre- by first If after the time, packet to be sent is sent in wake-up states by second application processor by the preset interface After the step of first application processor, in addition to：

When first application processor in wake-up states receives the packet to be sent, detect the 3rd Whether second data interaction request is received in preset time；

If not receiving the second data interaction request in the 3rd preset time, the first application processing Device enters resting state from wake-up states.

The present invention provides a kind of data transmission system and method, and the data transmission method is applied to mobile terminal and logical The external equipment that preset interface is connected with the mobile terminal is crossed, the mobile terminal includes the first application processor and and entity First modem of Subscriber Identity Module connection, the external equipment includes second modem and is embedded with Virtual User Second application processor of identification card；Enter when by keyword of shaking hands from resting state at second application of wake-up states When reason device detects data transmission instruction, detect and whether there is the packet in transmission state in the preset interface；If institute State and not there is no the packet in transmission state in preset interface, then after the first preset time, described second at Packet to be sent is sent to first application processor in wake-up states by reason device by the preset interface.Realize Mobile terminal realized by external equipment during double LTE communications, when not there is no the number in transmission state in preset interface During according to bag, only after the first preset time, the second application processor, which just sends packet to be sent and is sent to first, answers Use processor.Mobile terminal and external equipment are avoided in transmission of data packets, if external equipment is passed to mobile terminal The speed of transmission of data bag is too fast, and multiple identification of data packets that mobile terminal can send external equipment are the situation of a packet Occur, improve the accuracy rate of the packet transmitted by mobile terminal identification external equipment.

Brief description of the drawings

Fig. 1 is the schematic diagram of the LTE network framework of one embodiment of the invention；

Fig. 2 is mobile terminal and a kind of hardware architecture diagram of external equipment communication connection in the embodiment of the present invention；

Fig. 3 is mobile terminal and a kind of entity structure schematic diagram of external equipment communication connection in the embodiment of the present invention；

Fig. 4 is that the first application processor in the embodiment of the present invention and the second application processor enter wake-up shape from resting state The first schematic diagram of state；

Fig. 5 is that the first application processor in the embodiment of the present invention and the second application processor enter wake-up shape from resting state Second of schematic diagram of state；

Fig. 6 is that the first application processor in the embodiment of the present invention and the second application processor enter dormancy shape from wake-up states A kind of schematic diagram of state；

Fig. 7 is the schematic flow sheet of data transmission method first embodiment of the present invention；

Fig. 8 is the schematic flow sheet of data transmission method second embodiment of the present invention；

Fig. 9 is the schematic flow sheet of data transmission method 3rd embodiment of the present invention；

Figure 10 is the schematic flow sheet of data transmission method fourth embodiment of the present invention；

Figure 11 is the schematic flow sheet of the embodiment of data transmission method the 5th of the present invention.

The realization, functional characteristics and advantage of the object of the invention will be explained referring to the drawings in conjunction with the embodiments.

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.

Describe to realize the mobile terminal of each embodiment of the invention referring now to accompanying drawing.In follow-up description, use For represent element such as " module ", " part " or " unit " suffix only for be conducive to the present invention explanation, itself Not specific meaning.Therefore, " module " can be used mixedly with " part ".

Fig. 1 is the schematic diagram of the LTE network framework of one embodiment of the invention.The LTE network framework of one embodiment of the invention Including：One or more mobile terminals (user equipment, UE) 100, E-UTRAN (Evolved UMTS Terrestrial Radio Access Network, the UMTS Terrestrial radio access network of evolution) (non-label in figure), evolution point Group core (EPC) (non-label in figure), home subscriber servers (HSS) 107, network (for example, internet) (non-label in figure) And circuit switching system (non-label in figure).

E-UTRAN includes evolution B node (eNodeB) 101 and other eNodeB 102.ENodeB 101 is provided towards shifting The user plane of dynamic terminal 100 and the protocol terminations of chain of command.ENodeB 101 can be connected to other eNodeB via X2 interface. ENodeB 101 is alternatively referred to as base station, base transceiver station, radio base station, wireless set, transceiver function, basic service Collection, extended service set or some other suitable terms.ENodeB 101 is that mobile terminal 1 00 provides the access for going to EPC Point.

ENodeB 101 is connected to EPC by S1 interfaces.EPC includes mobile management entity (EEM) 104, other moving tubes Manage entity 106, gateway 103, and packet data network (PDN) gateway 105.Mobile management entity 104 is processing movement The control node of signaling between terminal 100 and EPC.Mobile management entity 104 provides carrying and connection management.All User IPs Packet is transmitted by gateway 103, and gateway 103 is itself coupled to PDN Gateway 105.PDN Gateway 105 provides UE IP Address is distributed and other functions.PDN Gateway 105 is connected to network, for example, internet.

Circuit switching system includes interaction solution module (IWS) 108, mobile switching centre (MSC) 109, base station 110 With movement station 111.In one aspect, circuit switching system can pass through IWS and MME (Mobility Management Entity, mobile management entity) communicated with EPS (Evolved Packet System, the grouping system of evolution).

Fig. 2 is mobile terminal and a kind of hardware architecture diagram of external equipment communication connection in the embodiment of the present invention. In the embodiment of the present invention, mobile terminal 1 00 is connected by preset interface with external equipment 200.Mobile terminal 1 00 is included at first Reason chip 001 and the first radio-frequency module 12 being connected with the first process chip 001.Wherein, the first process chip 001 includes first Application processor (Application Processor) 10, the first modem 11 being connected with entity user identification card 13 (modem1), RPM (Resource Power Manager, resource power supervisor) 15 and the first timer 16, entity user Identification card 13 is SIM card.External equipment 200 includes second processing chip 002 and second penetrating of being connected with second processing chip 002 Frequency module 22.Wherein, second processing chip 002 includes being embedded with the second application processor 20 of virtual user identifying card 23, the The timer 26 of two modems (modem2) 21 and second.

The inner frame of first application processor 10 and the second application processor 20 includes application layer, ccf layer etc., can locate Manage the logical operation of complexity and carry out task distribution etc..Second application processor 20 is embedded with virtual user identifying card 23. In the embodiment of the present invention, application processor refers to Android operation system, and the various apk based on Android operation system (Android Package, Android installation kit).First application processor 10 and the second application processor 20 are real by preset interface Now connect, provide the user interactive interface, the operational order that user is inputted is (for example, user passes through having that user interface is inputted The operational order of video calling is moved in start or stop) the first modem 11 or second modem 21 are transferred to, to realize two The definition and transmission of data between processor, for example, carrying out the dormancy of two application processors, wake-up, synchronous control, switch Control of chip boot sequence etc. during machine.

First application processor 10 is connected by preset interface with the second application processor 20, to realize mobile terminal 1 00 With the connection between external equipment 200.In embodiments of the present invention, preset interface be USB (Universal Serial Bus, USB).USB is multiplexed out two data passages, is respectively used to the first application processor 10 and the second application processor The interaction of user data and signaling data between 20.That is the first application processor 10 and the second application processor 20 are passed by USB Defeated user data and signaling data.Wherein, user data includes but is not limited to the data that online is produced, picture and chat message number According to；Signaling data includes but is not limited to the control data of switching on and shutting down, switchs the control data of offline mode, dispaly state signal Control data.In embodiments of the present invention, because the first modem 11 is connected with entity user identification card 13, the second application Processor 20 is embedded with virtual user identifying card 23, therefore, and USB does not transmit SIM card authorization data.

Specifically, the first application processor 10 and the second application processor 20 enter line number by OTG (On-The-Go) technology According to interaction.By OTG technologies, the first modem 11 in mobile terminal 1 00 can be by entity user identification card 13 SIM card parameter accesses eNodeB 101, second modem 21 can by the SIM card parameter of virtual user identifying card 23 come ENodeB 101 is accessed, SIM card parameter includes but is not limited to SIM card authorization data.

The protocol stack of the network formats of first modem 11 and second modem 21 comprising various network interactions, Protocol stack includes LTE/WCDMA (Wideband Code Division Multiple Access, WCDMA)/GSM (Global System for Mobile Communication, global system for mobile communications)/TD-SCDMA (Time Division-Synchronous Code Division Multiple Access, synchronous time division CDMA)/CDMA (Code Division Multiple Access, CDMA)/EDGE (Enhanced Data Rate for GSM Evolution, strong type Data for GSM Evolution) etc. protocol code as defined in inside communication standard.Mobile terminal 1 00 is led to Agreement is crossed to interact with carrier network, that is, carry out data traffic online, VOLTE (Voice Over LTE) make a phone call or Make a phone call in CS (Circuit Switched, circuit switching) domain.First modem 11 and second modem 21 are also used In management and control to SIM card etc..

First radio-frequency module 12 is transmitted to (the base station nets of eNodeB 101 after being used for the data processing of transmitting mobile terminal 1 00 Network), and for being transmitted to mobile terminal 1 00 after the data processing of transmitting eNodeB 101.Second radio-frequency module 22 is used for will ENodeB 101 (base station network) is transmitted to after the data processing that external equipment 200 is transmitted, and for eNodeB 101 to be transmitted Data processing after be transmitted to external equipment 200.

Wireless access technology involved by first radio-frequency module 12 and the second radio-frequency module 22 can include LTE, GSM, GPRS (General Packet Radio Service, general packet radio service), CDMA, EDGE, WLAN (Wireless Local Area Networks, WLAN), CDMA-2000, TD-SCDMA, WCDMA, WIFI (Wireless Fidelity, Wireless Fidelity) etc..

Virtual user identifying card 23 is embedded in the second application processor 20 in a software form.Virtual user identifying card 23 is wrapped Memory module and virtual chip operating system (VCOS, Virtual Chip Operating System) are included, the memory module can For EFS (Encrypting File System, encrypted file system), memory module is used to store virtual user identifying card 23 Authorization data.Entity user identification card 13 is connected with the first modem 11.Virtual user identifying card 23 and entity user are known 13 the user profile associated with similar and different technical standard Ka not can be stored, for providing mobile communication business (CS languages Sound business, PS data services and PS speech businesses) needed for related data, and in its storage inside user profile, short message, hold Row authentication arithmetic and generation cryptographic keys etc..In specific non-limiting examples, technical standard can be the 2G communication technologys, for example, GSM, EDGE), the 3G communication technologys (for example, WCDMA, TD-SCDMA), the 4G communication technologys (for example, LTE), or any other movement The communication technology (for example, 4G etc.).

When virtual user identifying card 23 needs to carry out network registry, sent by Wireless Fidelity (WIFI) network of unlatching The corresponding cloud server of virtual user identifying card 23 is downloaded request to comprising service menu data, to be obtained from cloud server Take the data message of virtual user identifying card 23.When getting the data message of virtual user identifying card 23, by data message In the memory module for writing virtual user identifying card 23, to realize the network registry of virtual user identifying card 23.Wherein, data are believed Breath can include：IMSI, Ki (key identifier, KI), ICCID (Integrated Circuit Card Identifier), PIN (personal identification number, Personal Identification Number), PUK (PIN Unlocking Key).It is understood that storing the card number resource of each operator in cloud server.

Because current mobile terminal 1 00 only has a set of radio-frequency module, when mobile terminal 1 00 has two Subscriber Identity Modules When, this two Subscriber Identity Modules are the relation of time-sharing multiplex using the set radio-frequency module, can not be taken simultaneously.For example, two When opening Subscriber Identity Module standard-sized sheet, wherein a Subscriber Identity Module only handles GSM calls, and another Subscriber Identity Module handles 4G nets Network information, which specific Subscriber Identity Module performs which kind of network, does not limit herein.Therefore current radio-frequency module double card timesharing It is multiplexed this framework and has only accomplished that (the corresponding technical standard of i.e. one Subscriber Identity Module is LTE to LTE+GSM, and another user knows Do not block corresponding technical standard for GSM).

Although it is understood that existing mobile terminal 1 00 can support Dual-user identification card, due to mobile terminal 100 in the case of registered network, and what two Subscriber Identity Modules were supported is the network of different technologies standard, one support 2G or 3G, another support 4G, can cause during the use of mobile terminal 1 00, surfing flow speed is slower.In the embodiment of the present invention In, mobile terminal 1 00 is by USB connections external equipment 200, because external equipment 200 includes being embedded with virtual user identifying card 23 the second application processor 20, the radio-frequency module 22 of second modem 21 and second, and the second radio-frequency module 22 supports 4G Network.Therefore, mobile terminal 1 00 can be interacted by USB with external equipment 200, so that mobile terminal 1 00 possesses double LTE (technical standard that now virtual user identifying card 23 and entity user identification card 13 are managed is LTE standard, the first radio frequency to function Wireless access technology involved by the radio-frequency module 22 of module 12 and second can pass through movement for LTE, i.e. entity user identification card 13 The first modem 11 in terminal 100 supports LTE, and virtual user identifying card 23 passes through the second modulation in external equipment Demodulator 21 supports LTE).

When mobile terminal 1 00 is not connected by USB with external equipment 200, the skill corresponding to entity user identification card 13 Art standard is GSM, supports LTE to be used to enter by 4G networks for carrying out speech communication, or by the first modem 11 Row data access.

Entity user identification card 13 with mobile terminal 1 00 when interacting, the detection entity user of mobile terminal 1 00 identification card 13 The signal of presence or absence is only in the instantaneous generation of start, in the presence of start can't detect entity user identification card 13, mobile terminal 100 point out " insertion Subscriber Identity Module " in its display screen.After mobile terminal 1 00 is started shooting, mobile terminal 1 00 and entity user Communication in 28 seconds once, completes the communication check (for example, Subscriber Identity Module whether in place etc.) of some fixations between identification card 13.

It should be noted that because the first modem 11 of mobile terminal 1 00 is connected with entity user identification card 13, And the second application processor 20 of external equipment 200 is embedded with virtual user identifying card 23, therefore, the He of the first modem 11 Second modem 21 is separate, and second modem 21 does not wake up the first modem 11.

RPM15 be used for the various resources of management and control, including clock sources, bus resource, PMIC (Power Management IC, The voltage of power management integrated circuit, i.e. each chip), DDR (Memory Allocation), and the dormancy awakening of managing chip interruption The deadline waken up with application processor.The subsystems of mobile terminal 1 00, when needing resource, apply providing to RPM15 Source, subsystems include the first application processor 10, the first modem 11, PRONTO (WIFI/ bluetooths, NFC respectively (Near Field Communication, near-field communication) etc.), LPASS (Low power audio subsystem, low-power consumption Audio subsystem), RPM15 is used for determining the resting state of the system of mobile terminal 1 00, is specifically, and RPM15 is based on subsystems Voting mechanism realize, when subsystems all throw dormancy ticket, RPM15 can just make the whole system of mobile terminal 1 00 carry out Dormancy.And when mobile terminal 1 00 has the ticket of a sub or multiple subsystems throwing opposition dormancy, the whole system of mobile terminal 1 00 All can not dormancy.

In the case where mobile terminal 1 00 and external equipment 200 are by USB communication connections, wake-up mode can be following three Kind：

1st, when the first application processor 10 receives signaling data, by USB send shake hands keyword to second application at Device 20 is managed, to wake up the second application processor 20.

2nd, when second modem 21 receives user data, the second application processor 20 is waken up, by the second application Reason device 20 shakes hands keyword to the first application processor 10 by USB transmission, to wake up the first application processor 10.

3rd, second modem 21 periodically searches paging request, with active activation oneself.If receiving paging request, Second modem 21 then wakes up the second application processor 20, and key of shaking hands is sent by USB by the second application processor 20 Word gives the first application processor 10, to wake up the second application processor 20.

In addition, second modem 21 can be with periodic wakeup oneself, to carry out location updating in mobile terminal 1 00 When, interaction of shaking hands is carried out with base station, the first application processor 10 need not be now waken up.

When first timer 16 and the second timer 26 are used in mobile terminal 1 00 and the interaction of external equipment 200 Between calculating, to control the first application processor 10, the first modem 11, the second application processor 20 and/or second adjust Modulator-demodulator 21 enters wake-up states from sleep state within a certain period of time, and the first application processor 10, first of control is adjusted Modulator-demodulator 11, the second application processor 20 and/or second modem 21 enter to fall asleep from wake-up states within a certain period of time Dormancy state.In embodiments of the present invention, mobile terminal 1 00 and the number of the Timer of external equipment 200 can be one, or It is multiple.

Reference picture 3, Fig. 3 is the entity structure schematic diagram of mobile terminal 1 00 of the present invention and the communication connection of external equipment 200. Mobile terminal 1 00 is connected by USB with the communication of external equipment 200, wherein, mobile terminal includes but is not limited to mobile phone, PC (Personal Computer, PC) or PAD (Personal Digital Assistant, personal digital assistant), outside Connect equipment 200 and include but is not limited to wireless Internet card and data card.It should be noted that mobile terminal 1 00 by USB with it is external The link position of equipment 200 is not limited to shown in Fig. 3, mobile terminal 1 00 can be set to be set by USB with external according to specific needs Standby 200 link position.

The hardware configuration for communicating connection based on above-mentioned LTE network framework figure, mobile terminal 1 00 and external equipment 200 shows It is intended to and entity structure schematic diagram, proposes each embodiment of the present invention.

The present embodiment proposes a kind of data transmission system, and data transmission system includes mobile terminal 1 00 and external equipment 200, mobile terminal 1 00 is connected by preset interface with external equipment 200, mobile terminal 1 00 include the first application processor 10, First radio-frequency module 12, the first timer 16 and the first modem 11 being connected with entity user identification card 13, it is external to set Standby 200 include being embedded with the second application processor 20, the second radio-frequency module 22, the second timer 26 of virtual user identifying card 23 With second modem 21.

Second application processor 20, for detecting number after wake-up states are entered from resting state by keyword of shaking hands During according to sending instruction, the packet in transmission state is whether there is in detection preset interface；

If the second application processor 20 is additionally operable in preset interface not no presence of the packet in transmission state, passing through After first preset time, packet to be sent is sent to by preset interface by the first application processor in wake-up states 10。

Sent out when the second application processor 20 for entering wake-up states from resting state by keyword of shaking hands detects data When sending instruction, it whether there is the packet in transmission state in the second application processor 20 detection preset interface, that is, detect pre- If with the presence or absence of the packet not sent in interface.If not there is no the packet in transmission state in preset interface, open Dynamic second timer 26, and the second timer 26 is initialized, the value for making the second timer 26 is zero.When the value of the second timer 26 During equal to or more than the first preset time, i.e., after the first preset time, the second application processor 20 is connect by default Packet to be sent is sent to the first application processor 10 in wake-up states by mouth.

When the value of the second timer 26 is less than the first preset time, the pause of the second application processor 20 sends number to be sent According to bag to the first application processor 10, i.e. the second application processor 20, which is sent, treats response data packet to the first application processor 10 Time interval is the first preset time.In the present embodiment, the first preset time is set to 3ms, in other embodiments, first Preset time may be alternatively provided as 4ms or 5ms etc..In the present embodiment, preset interface is USB, in other embodiments, is preset Interface can be with the interface with USB said functions.

Further, triggered when the data send instruction by second modem 21, and preset interface is USB, And the packet to be sent is when needing to be sent to the first modem, packet to be sent is in mobile terminal 1 00 and external Transmitting procedure between equipment 200 is specially：By smd, (share memory driver share second modem 21 Internal memory drives) packet to be sent is sent to the second application processor 20 by passage, and the second application processor 20 passes through USB interface Packet to be sent is sent to the first application processor 10, the first application processor 10 receives packet to be sent, passes through smd Packet to be sent is sent to the first modem 11 by passage.

Further, when there is the packet in transmission state in preset interface, the second application processor 20 is waited The packet in transmission state is completely sent to the first application processor 10 in preset interface.

Further, not there is no the packet in transmission state in preset interface when the second application processor 20 is detected When, the second application processor 20, which is detected, whether there is packet to be sent in transmit queue.If existing in transmit queue to be sent Packet, then initialize the second timer 26, when the value of the second timer 26 is equal to or more than the first preset time, passes through Packet to be sent is sent to the first application processor 10 by preset interface.If there is no packet to be sent in transmit queue, The second timer 26 is then initialized, when the value of the second timer 26 is equal to or more than the first preset time, in transmit queue There is not packet to be sent also, the second application processor 20 then initializes the second timer 26 again.When the second timer 26 Value is more than or equal to setting time value, when still not having packet to be sent in transmit queue, the second application processor 20 from Wake-up states enter resting state.Setting time value can be set according to specific needs, in the present embodiment, and setting time value can It is set to 500ms, or 550ms etc..It is understood that memory space of the transmit queue for storage packet to be sent.Need It is noted that still not having to be sent when the value of the second timer 26 is more than or equal in setting time value, transmit queue During packet, call the dormancy function that USB interface agreement carries to perform USB sleep operation, USB dormancy release it is shared when Clock resource, to realize the dormancy of application processor and modem in mobile terminal 1 00 and external equipment 200.

In the present embodiment, when the second application processor 20 for entering wake-up states from resting state by keyword of shaking hands When detecting data transmission instruction, the packet in transmission state is whether there is in detection preset interface；If in preset interface Not there is no the packet in transmission state, then after the first preset time, the second application processor 20 is connect by default Packet to be sent is sent to the first application processor 10 in wake-up states by mouth.Mobile terminal 1 00 is realized by outer Connecing during equipment 200 realizes double LTE communications, when not there is no the packet in transmission state in preset interface, only existing After the first preset time, the second application processor 20 just sends packet to be sent and is sent to the first application processor 10. Mobile terminal 1 00 and external equipment 200 are avoided in transmission of data packets, if external equipment 200 is to mobile terminal 1 00 The speed of transmission packet is too fast, and multiple identification of data packets that mobile terminal 1 00 can send external equipment 200 are a data The situation of bag occurs, and improves the accuracy rate of the packet transmitted by the identification external equipment 200 of mobile terminal 1 00.

Further, data transmission system second embodiment of the present invention is proposed.

The difference of data transmission system second embodiment and data transmission system first embodiment is that the second application is handled Device 20 is additionally operable to when receiving the first data interaction request in a dormant state, is sent first and is shaken hands keyword to the first application Processor 10, enters first from resting state and sends state；

Second application processor 20 is additionally operable to work as receives the first application processor 10 feedback in the second preset time With first shake hands keyword corresponding second shake hands keyword when, according to second shake hands keyword from the first transmission state enter call out The state of waking up.

In the present embodiment, first shake hands keyword and the second keyword of shaking hands is not normal packet, be signaling number According to entering another state for controlling the first application processor 10 and the second application processor 20 from resting state.First holds Hand keyword and the second keyword of shaking hands can use the character mark of fixed word length, be the field for being not in normal data packet. It as in the present embodiment, can represent that first shakes hands keyword with 0xF9F9F9, represent that second shakes hands keyword with 0x9F9F9F, In other embodiments, it is also possible to be set to other keywords of shaking hands, such as 0xF3F3 and 0x3F3F.

First keyword of shaking hands represents that requirement enters wake-up states, and the second keyword of shaking hands represents that come in and enters wake-up states. Because the first application processor 10 and the second application processor 20 are in wake-up states, normal data packet can be just received.Therefore, exist Be not in the present embodiment, in the normal data transmitted between the first application processor 10 and the second application processor 20 and the One shake hands keyword, the second keyword word length of shaking hands is equal, content identical packet.If it exists, at the first application The reason application processor 20 of device 10 and second can abandon, content phase equal with the first shake hands keyword, the second keyword word length of shaking hands Same packet.

Reference picture 4, the second application processor 20 enters the specific mistake of wake-up states by keyword of shaking hands from resting state Cheng Wei：When the second application processor 20 in a dormant state receives the first data interaction request, send first and shake hands key Word gives the first application processor 10, it is desirable to which the first application processor 10 enters wake-up states.When the second application processor 20 is sent First shakes hands keyword to after the first application processor 10, and shape is sent from resting state into send keyword of shaking hands first State, and start the second timer 26, the second timer 26 is initialized, the initial value of the second timer 26 is equal to zero, starts meter When.When the second timer 26 starts timing, the testing mechanism of keyword while triggering second is shaken hands.If in the second timer 26 Value be less than or equal to the second preset time when, the second application processor 20 receive the first application processor 10 feedback with First keyword corresponding second of shaking hands is shaken hands keyword, and the request of the second application processor 20 enters wake-up states, i.e., when second Application processor 20 received in the second preset time second shake hands keyword when, the second application processor 20 is held according to second Hand keyword enters wake-up states from the first transmission state.

It should be noted that the first data interaction request that the second application processor 20 is received can be the second application processor 20 receive eNodeB 101 request of data, or the second application processor 20 needs to access 2G, 3G or 4G network, or The second application processor of person 20 has authentication requirement etc..It is understood that the first transmission state be the second application processor 20 from Resting state enters a kind of intermediateness of wake-up states.

Further, external equipment 200 also includes the 3rd timer.Reference picture 6, the second application processor 20 from wake up shape State enter resting state detailed process be：When the second application processor 20 enters wake-up states, the 3rd timer is initialized, The initial value for making the 3rd timer is zero, and starts timing.If the second application processor 20 is more than in the value of the 3rd timer Or the first data interaction request is all not received by during equal to preset duration, the second application processor 20 then enters from wake-up states Enter resting state.

It should be noted that in the present embodiment, the second preset time is 10ms, and preset duration is 500ms.In other realities Apply in example, preset duration and the second preset time could be arranged to other numerical value, such as the second preset time could be arranged to 12ms, Or 15ms, and preset duration could be arranged to 550ms, or it is set to 480ms etc..

The present embodiment passes through when the second application processor 20 in a dormant state receives the first data interaction request Keyword of shaking hands carries out wake-up states from resting state, to ensure that the second application processor 20 is counted with the first application processor 10 According in interaction, the first application processor 10 and the second application processor 20 are in complete wake-up states, mobile whole to realize Realize during double LTE communications that mobile terminal 1 00 and external equipment 200 can be with proper communications by external equipment 200 in end 100.

Further, data transmission system 3rd embodiment of the present invention is proposed.

The difference of data transmission system 3rd embodiment and data transmission system second embodiment is that the first application is handled Device 10, for when receive in a dormant state the second application processor 20 transmission first shake hands keyword when, detection first Whether keyword of shaking hands is residual bag；

If it is not residual bag that the first application processor 10, which is additionally operable to the first keyword of shaking hands, enters second and send state, and Feedback second shakes hands keyword to the second application processor 20；

First application processor 10 is additionally operable to after feedback second shakes hands keyword to the second application processor 20, from second Transmission state enters wake-up states.

Reference picture 4, the first application processor 10 from resting state enter wake-up states detailed process be：When in dormancy First application processor 10 of state receive the second application processor 20 transmission first shake hands keyword when, first application at Whether reason the first keyword of shaking hands of detection of device 10 is residual bag.If the first keyword of shaking hands is normal packet, at the first application Manage device 10 then enter second send state, and feed back with first shake hands keyword corresponding second shake hands keyword to second apply Processor 20.After the first application processor 10 feedback second shakes hands keyword to the second application processor 20, at the first application Reason device 10 enters wake-up states from the second transmission state.It is understood that the second transmission state is the first application processor 10 Enter a kind of intermediateness of wake-up states from resting state.Further, when the first application processor 10 feedback second is shaken hands Keyword is given after the second application processor 20, and the first application processor 10 can receive treating for the second application processor 20 transmission Send after packet, then enter wake-up states from the second transmission state.

Further, whether the keyword of shaking hands of the first application processor 10 detection first is that the detailed process of residual bag is：When First application processor 10 receive first shake hands keyword when, the first application processor 10 judges the first word for shaking hands keyword It is long whether to be equal to fixed word length.If the first word length for shaking hands keyword is equal to fixed word length, it is determined that first shakes hands keyword not It is residual bag；If the first word length for shaking hands keyword is not equal to fixed word length, it is determined that the first keyword of shaking hands is residual bag.It can manage Solution, whether the keyword of shaking hands of the first application processor 10 detection first is that the method for residual bag is not restricted to the present embodiment institute The method of description, such as when first, which shakes hands, contains watermark in keyword, the first application processor 10 can also be by judging first Whether the watermark shaken hands in keyword is complete, and whether watermark is tampered to detect whether the first keyword of shaking hands is residual bag.

Further, when the first keyword of shaking hands is residual bag, the first application processor 10 does not send second and shaken hands keyword To the second application processor 20, wait the second application processor 20 to send first again and shake hands keyword.

In the present embodiment, the first application processor 10 in a dormant state is shaken hands key by received first Word enters wake-up states from resting state, to ensure that the second application processor 20 is carrying out data friendship with the first application processor 10 During mutually, the first application processor 10 and the second application processor 20 are in complete wake-up states, to realize mobile terminal 1 00 During realizing double LTE communications by external equipment 200, mobile terminal 1 00 and external equipment 200 can be with proper communications.

Further, data transmission system fourth embodiment of the present invention is proposed.

The difference of data transmission system fourth embodiment and data transmission system second embodiment is that the second application is handled If device 20 is additionally operable to not receive second in the second preset time and shaken hands keyword, resend first shake hands keyword to First application processor 10；

If the second application processor 20 is additionally operable to shake hands keyword to after the first application processor 10 resending first, Do not receive second also in the second preset time to shake hands keyword, then into resting state.

Reference picture 5, shakes hands keyword, second if the second application processor 20 does not receive second in the second preset time Application processor 20 then enters the 3rd and sends state, resends first and shakes hands keyword to the first application processor 10, and again The second timer 26 of secondary initialization, makes the initial value of the second timer 26 be equal to zero, starts timing.Start in the second timer 26 During timing, the testing mechanism of keyword while triggering second is shaken hands.If the second application processor 20 is shaken hands resending first Keyword is given after the first application processor 10, does not receive second also in the second preset time and shakes hands keyword, then from the 3rd Transmission state enters resting state, i.e., when the value of the second timer 20 is equal to or more than the second preset time, the second application Processor 20 does not receive second also and shaken hands keyword, then into resting state.If receiving second in the second preset time Shake hands keyword, the second application processor 20 then enters wake-up states from the 3rd transmission state.It is understood that the 3rd sends State is a kind of intermediateness that the second application processor 20 enters wake-up states from resting state.It is understood that can root According to need set when the second application processor 20 do not received in the second preset time second shake hands keyword when, second application Processor 20 retransmits the first number of times for shaking hands keyword.

The present embodiment does not receive second by the second application processor 20 in the second preset time and shaken hands keyword, Two application processors 20 resend first and shake hands keyword to the first application processor 10, to avoid the second application processor 20 When sending packet to be sent to the first application processor 10, the first application processor 10 is also in incomplete wake-up states.

Further, the embodiment of data transmission system the 5th of the present invention is proposed.

The difference of the embodiment of data transmission system the 5th and data transmission system first embodiment is that the first application is handled Device 10 is additionally operable to when receiving packet to be sent in wake-up states, and whether detection receives the in the 3rd preset time Two data interactions are asked；

If the first application processor 10 is additionally operable to not receive the second data interaction request in the 3rd preset time, from Wake-up states enter resting state.

Reference picture 6, the first application processor 10 from wake-up states enter resting state detailed process be：When the first application Processor 10 enters after wake-up states, and whether detection receives the second data interaction request in the 3rd preset time.When first When application processor 10 does not receive the second data interaction request in the 3rd preset time, the first application processor 10 is from wake-up State enters resting state；When the first application processor 10 receives the second data interaction request in the 3rd preset time, First application processor 10 then continues to stay awake for.

Specifically, the first application processor 10 can be by the first timer 16 come timing.When the first application processor 10 enters Enter after wake-up states, start the first timer 16, initialize the first timer 16, the initial value for making the first timer 16 is zero. When the value of the first timer 16 is more than or equal to the 3rd preset time, and the first application processor 10 does not receive the second data During interaction request, the first application processor 10 then enters resting state from wake-up states.

In the present embodiment, the 3rd preset time is 500ms.In other embodiments, the 3rd preset time can be set For other numerical value, such as the 3rd preset time could be arranged to 550ms, or be set to 490ms etc..First application processor 10 connects The the second data interaction request received can receive eNodeB 101 request of data for the first application processor 10, or first should Needed to access 2G, 3G or 4G network with processor 10, or the first application processor 10 will enter with the second application processor 20 Row data interaction etc..

The present embodiment when the first application processor 10 in wake-up states in the 3rd preset time by not receiving When second data interaction is asked, enter resting state from wake-up states, the first application processor 10 is not required within a certain period of time When carrying out data interaction, into resting state, to reduce the power consumption of mobile terminal 1 00.

The present invention also provides a kind of data transmission method.

Reference picture 7, Fig. 7 is the schematic flow sheet of data transmission method first embodiment of the present invention.

The present embodiment proposes a kind of data transmission method, in the present embodiment there is provided the embodiment of data transmission method, , can be with different from herein it should be noted that, although show logical order in flow charts, but in some cases Order performs shown or described step.

Data transmission method is applied to pass through in the mobile terminal 1 00 that preset interface is connected with external equipment 200, mobile whole End 100 includes the first application processor 10, the first radio-frequency module 12, the first timer 16 and is connected with entity user identification card 13 The first modem 11, external equipment 200 includes being embedded with the second application processor 20 of virtual user identifying card 23, the Two radio-frequency modules 22, the second timer 26 and second modem 21.

Step S10, when the second application processor 20 for entering wake-up states from resting state by keyword of shaking hands is detected When sending instruction to data, the packet in transmission state is whether there is in detection preset interface.

Step S20, if not there is no the packet in transmission state in preset interface, is passing through the first preset time Afterwards, packet to be sent is sent to the first application in wake-up states by preset interface and handled by the second application processor 20 Device 10.

Further, data transmission method second embodiment of the present invention is proposed.

The difference of data transmission method second embodiment and data transmission method first embodiment is, reference picture 8, data Transmission method also includes：

Step S30, when the second application processor 20 in a dormant state receives the first data interaction request, sends First shakes hands keyword to the first application processor 10, and the second application processor 20 enters first from resting state and sends state.

Step S40, when receiving being shaken hands key with first for the first application processor 10 feedback in the second preset time Word corresponding second shake hands keyword when, the second application processor 20 enters according to the second keyword of shaking hands from the first transmission state Wake-up states.

Further, data transmission method 3rd embodiment of the present invention is proposed.

The difference of data transmission method 3rd embodiment and data transmission method second embodiment is, reference picture 9, data Transmission method also includes：

Step S50, when the first application processor 10 in a dormant state receives the transmission of the second application processor 20 First shake hands keyword when, whether the first application processor 10 the first keyword of shaking hands of detection is residual bag.

Step S60, if the first keyword of shaking hands is not residual bag, the first application processor 10 enters second and sends state, And feedback second shakes hands keyword to the second application processor 20.

Step S70, after feeding back second and shaking hands keyword to the second application processor 20, the first application processor 10 is from the Two transmission states enter wake-up states.

Further, data transmission method fourth embodiment of the present invention is proposed.

The difference of data transmission method fourth embodiment and data transmission method second embodiment is that reference picture 10 is counted Also include according to transmission method：

Step S80, shakes hands keyword if the second application processor 20 does not receive second in the second preset time, weighs New transmission first shakes hands keyword to the first application processor 10.

Step S90, if shaking hands keyword to after the first application processor 10 resending first, the second application processor 20 do not receive second also in the second preset time shakes hands keyword, then into resting state.

Further, the embodiment of data transmission method the 5th of the present invention is proposed.

The difference of data transmission method fourth embodiment and data transmission method first embodiment is that reference picture 11 is counted Also include according to transmission method：

Step S110, when the first application processor 10 in wake-up states receives packet to be sent, detection exists Whether second data interaction request is received in 3rd preset time.

Step S120, if not receiving the second data interaction request, the first application processor in the 3rd preset time 10 enter resting state from wake-up states.

It should be noted that herein, term " comprising ", "comprising" or its any other variant are intended to non-row His property is included, so that process, method, article or system including a series of key elements not only include those key elements, and And also including the other key elements being not expressly set out, or also include for this process, method, article or system institute inherently Key element.In the absence of more restrictions, the key element limited by sentence "including a ...", it is not excluded that including this Also there is other identical element in process, method, article or the system of key element.

The embodiments of the present invention are for illustration only, and the quality of embodiment is not represented.

Through the above description of the embodiments, those skilled in the art can be understood that above-described embodiment side Method can add the mode of required general hardware platform to realize by software, naturally it is also possible to by hardware, but in many cases The former is more preferably embodiment.Understood based on such, technical scheme is substantially done to prior art in other words Going out the part of contribution can be embodied in the form of software product, and the computer software product is stored in a storage medium In (such as ROM/RAM, magnetic disc, CD), including some instructions are to cause a station terminal equipment (can be mobile phone, computer, clothes It is engaged in device, air conditioner, or network equipment etc.) method that performs each embodiment of the invention.

The preferred embodiments of the present invention are these are only, are not intended to limit the scope of the invention, it is every to utilize this hair Equivalent structure or equivalent flow conversion that bright specification and accompanying drawing content are made, or directly or indirectly it is used in other related skills Art field, is included within the scope of the present invention.

Claims

1. a kind of data transmission system, it is characterised in that the data transmission system includes mobile terminal and external equipment, described Mobile terminal is connected by preset interface with the external equipment, and the mobile terminal includes the first application processor and and entity First modem of Subscriber Identity Module connection, the external equipment includes second modem and is embedded with Virtual User Second application processor of identification card；

Second application processor, for detecting data after wake-up states are entered from resting state by keyword of shaking hands When sending instruction, detect and whether there is the packet in transmission state in the preset interface；

If second application processor is additionally operable in the preset interface not no presence of the packet in transmission state, in warp Cross after the first preset time, by the preset interface by packet to be sent be sent in wake-up states described first should Use processor.

2. data transmission system as claimed in claim 1, it is characterised in that second application processor is additionally operable to work as and is in When resting state receives the first data interaction request, send first and shake hands keyword to first application processor, from not Dormancy state enters first and sends state；

Second application processor is additionally operable to work as receives the first application processor feedback in the second preset time With described first shake hands keyword corresponding second shake hands keyword when, according to described second shake hands keyword from described first hair State is sent to enter wake-up states.

3. data transmission system as claimed in claim 2, it is characterised in that first application processor, is in for working as Resting state receive described first that second application processor sends shake hands keyword when, detection described first is shaken hands pass Whether key word is residual bag；

If it is not residual bag that first application processor, which is additionally operable to the described first keyword of shaking hands, enters second and send state, And feed back described second and shake hands keyword to second application processor；

First application processor is additionally operable to after feedback described second shakes hands keyword to second application processor, from Second transmission state enters wake-up states.

4. data transmission system as claimed in claim 2, it is characterised in that if second application processor is additionally operable in institute State and do not receive described second in the second preset time and shake hands keyword, then resend described first and shake hands keyword to described First application processor；

If second application processor be additionally operable to resend described first shake hands keyword to described first application processing After device, do not receive described second also in second preset time and shake hands keyword, then into resting state.

5. the data transmission system as described in any one of Claims 1-4, it is characterised in that first application processor is also For when receiving the packet to be sent in wake-up states, whether detection to receive second in the 3rd preset time Data interaction is asked；

Please if first application processor is additionally operable to not receive second data interaction in the 3rd preset time Ask, then enter resting state from wake-up states.

6. a kind of data transmission method, it is characterised in that the data transmission method is applied to mobile terminal and by default The external equipment that interface is connected with the mobile terminal, the mobile terminal includes the first application processor and known with entity user Do not block the first modem of connection, the external equipment includes second modem and is embedded with virtual user identifying card The second application processor；

Sent when second application processor for entering wake-up states from resting state by keyword of shaking hands detects data During instruction, detect and whether there is the packet in transmission state in the preset interface；

If not there is no the packet in transmission state in the preset interface, after the first preset time, described the Packet to be sent is sent at first application in wake-up states by two application processors by the preset interface Manage device.

7. data transmission method as claimed in claim 6, it is characterised in that it is described when by keyword of shaking hands from resting state When detecting data into second application processors of wake-up states and send instruction, detect whether deposited in the preset interface Before the step of the packet in the state of transmission, in addition to：

When second application processor in a dormant state receives the first data interaction request, send first and shake hands pass Key word gives first application processor, and second application processor enters first from resting state and sends state；

When receiving the corresponding with the described first keyword of shaking hands of first application processor feedback in the second preset time Second shake hands keyword when, second application processor shakes hands keyword from the first transmission state according to described second Into wake-up states.

8. data transmission method as claimed in claim 7, it is characterised in that the data transmission method also includes：

When first application processor in a dormant state receives second application processor is sent described first Shake hands keyword when, whether the keyword of shaking hands of first application processor detection described first is residual bag；

If the described first keyword of shaking hands is not residual bag, first application processor enters second and sends state, and feeds back Described second shakes hands keyword to second application processor；

After feedback described second shakes hands keyword to second application processor, first application processor is sent out from second State is sent to enter wake-up states.

9. data transmission method as claimed in claim 7, it is characterised in that it is described when in the resting state described the When two application processors receive the first data interaction request, send first and shake hands keyword to first application processor, Second application processor from resting state enter first send state the step of after, in addition to：

If second application processor does not receive described second in second preset time and shaken hands keyword, again Send described first and shake hands keyword to first application processor；

If shaking hands keyword to after first application processor resending described first, second application processor exists Do not receive described second in second preset time also to shake hands keyword, then into resting state.

10. the data transmission method as described in any one of claim 6 to 9, it is characterised in that if in the preset interface Not there is no the packet in transmission state, then after the first preset time, second application processor passes through described After the step of packet to be sent to be sent to preset interface first application processor in wake-up states, also wrap Include：

When first application processor in wake-up states receives the packet to be sent, detection is default the 3rd Whether second data interaction request is received in time；

If not receiving second data interaction request in the 3rd preset time, first application processor from Wake-up states enter resting state.