CN104753550A - Wireless communication terminal and data processing method - Google Patents

Abstract

The invention discloses a wireless communication terminal and a data processing method. The wireless communication terminal comprises a plurality of radio frequency modules with different radio frequency frequencies, a plurality of CLFS in one-to-one correspondence to the radio frequency modules, and a non-contact type front-end CLF manager, wherein the radio frequency modules are used for receiving the non-contact radio frequency signals of the radio frequency frequencies thereof and sending the non-contact radio frequency signals to the corresponding CLFS; the CLFS are used for receiving the non-contact radio frequency signals sent from the corresponding radio frequency modules, modulating and demodulating the non-contact radio frequency signals to obtain first modulation-demodulation signals, and sending the first modulation-demodulation signals to the CLF manager, wherein the first modulation-demodulation signals carry data to be processed; the CLF manager is used for receiving the first modulation-demodulation signals sent from the CLF and processing the data to be processed in the first modulation-demodulation signals. By means of the scheme, the data to be processed in the non-contact signals with various radio frequency frequencies are processed on one wireless communication terminal.

Description

A kind of wireless communication terminal and data processing method

Technical field

The present invention relates to the communications field, particularly relate to a kind of wireless communication terminal and data processing method.

Background technology

Near field communication (NFC) (NFC, Near Field Communication), by non-contact radio-frequency identification, can realize the data transmission between distinct device and exchanges data in short distance.Built-in NFC chip in NFC mobile phone, can support multiple application, comprises mobile payment and the application such as transaction, peer-to-peer communication.By NFC mobile phone, people can not by the restriction of when and where, by compatible equipment, realizes paying and the transmission of data and the object of exchange.

At present, existing NFC mobile phone terminal only supports the mode of operation of 13.56MHz rf frequency, as shown in Figure 1: the NFC radio-frequency module in NFC mobile phone terminal utilizes wireless radio frequency mode, receive the signal of telecommunication or the magnetic signal of 13.56MHz rf frequency, and adopt contactless front end (CLF, Contactless Frontend) modulation /demodulation is carried out to the signal of telecommunication or magnetic signal, and the pending data that modulation-demodulation signal carries are processed, such as, at single-wire-protocol (SWP, Single Wire Protocal) in scheme, NFC mobile phone terminal can according to the data movement instruction carried in modulation-demodulation signal, with customer recognition (SIM, SubscriberIdentity Module) card in security module carry out transfer of data.

Above-mentioned existing NFC mobile phone terminal is owing to only supporting the mode of operation of 13.56MHz rf frequency, for the radiofrequency signal adopting other frequency ranges to send, existing NFC mobile phone terminal can not be used to realize data processing, therefore, it is urgent problem that the pending data that wireless communication terminal can carry the non-contact signal of multiple rf frequency carry out process.

Summary of the invention

The embodiment of the present invention provides a kind of wireless communication terminal and data processing method, the problem that the pending data can not carried the non-contact signal of multiple rf frequency in order to solve the NFC mobile phone that exists in prior art process.

The embodiment of the present invention provides a kind of wireless communication terminal, comprising: the different radio-frequency module of multiple rf frequency, with multiple radio-frequency module multiple CLF and contactless front end CLF manager one to one, wherein:

Described radio-frequency module, for receiving the Non-contact radio-frequency signal of self rf frequency; Described Non-contact radio-frequency signal is sent to the CLF corresponding with self;

Described CLF, for receiving the described Non-contact radio-frequency signal that the described radio-frequency module corresponding with self sends; Modulation /demodulation is carried out to described Non-contact radio-frequency signal, obtains the first modulation-demodulation signal; Described first modulation-demodulation signal is sent to described CLF manager, and described first modulation-demodulation signal carries pending data;

Described CLF manager, for receiving described first modulation-demodulation signal that described CLF sends; The pending data that described first modulation-demodulation signal carries are processed.

Adopt the wireless communication terminal that the embodiment of the present invention provides, because wireless communication terminal can receive the Non-contact radio-frequency signal of different radio frequency frequency, the pending data that the Non-contact radio-frequency signal of different radio frequency frequency carries can be processed accordingly, achieve and on a wireless communication terminal, the pending data that the non-contact signal of multiple rf frequency is carried are processed.

Further, described CLF manager, also for obtaining the digital signal of carrying data to be sent; Described digital signal is sent to described CLF;

Described CLF, also for receiving the described digital signal that described CLF manager sends; Modulation /demodulation is carried out to described digital signal, obtains the second modulation-demodulation signal; Described second modulation-demodulation signal is sent to the described radio-frequency module corresponding with self, and described second modulation-demodulation signal carries data to be sent;

Described radio-frequency module, also for receiving described second modulation-demodulation signal that the described CLF corresponding with self sends; The rf frequency of self is adopted to launch described second modulation-demodulation signal.

Further, above-mentioned wireless communication terminal, also comprises: power supply adaptor, wherein:

Described CLF manager, also for when needs start described CLF, send power request to described power supply adaptor, described power request carries the power reguirements of powering to CLF to be launched;

Described power supply adaptor, for receiving the described power request that described CLF manager sends; According to the power reguirements of powering to CLF to be launched carried in described power request, described CLF to be launched is powered.

Further, described contactless front end CLF manager, comprising: modulation-demodulation signal switch element, modulation-demodulation signal storehouse and CLF routing unit, wherein:

Described modulation-demodulation signal switch element, for determine described modulation-demodulation signal storehouse whether less than, when described modulation-demodulation signal storehouse less than time, described first modulation-demodulation signal is allowed to enter described modulation-demodulation signal storehouse, when described modulation-demodulation signal storehouse is expired, abandon described first modulation-demodulation signal;

Described modulation-demodulation signal storehouse, for storing described first modulation-demodulation signal; Described first modulation-demodulation signal is sent to described CLF routing unit;

Described CLF routing unit, for receiving described first modulation-demodulation signal that described modulation-demodulation signal storehouse sends; The pending data that described first modulation-demodulation signal carries are processed.

Further, described contactless front end CLF manager, also comprises: digital signal switch element and digital signal storehouse, wherein:

Described digital signal switch element, for determine described digital signal storehouse whether less than, when described digital signal storehouse less than time, allow described digital signal to enter described digital signal storehouse, when described digital signal storehouse completely time, abandon described digital signal;

Described digital signal storehouse, for storing described digital signal; Described digital signal is sent to described CLF routing unit;

Described CLF routing unit, also for receiving the described digital signal that described digital signal storehouse sends; According to CLF routing rule, described digital signal is sent to corresponding described CLF.

The embodiment of the present invention also provides a kind of data processing method, comprising:

There is the Non-contact radio-frequency signal of wireless communication terminal by specifying radio-frequency module to receive the rf frequency of described radio-frequency module of the different radio-frequency module of multiple rf frequency;

Carry out modulation /demodulation to described Non-contact radio-frequency signal, obtain the first modulation-demodulation signal, described first modulation-demodulation signal carries pending data;

The pending data that described first modulation-demodulation signal carries are processed.

Adopt the data processing method that the embodiment of the present invention provides, because wireless communication terminal can receive the Non-contact radio-frequency signal of different radio frequency frequency, the pending data that the Non-contact radio-frequency signal of different radio frequency frequency carries can be processed accordingly, achieve and on a wireless communication terminal, the pending data that the non-contact signal of multiple rf frequency is carried are processed.

Further, modulation /demodulation is being carried out to this Non-contact radio-frequency signal described, after obtaining the first modulation-demodulation signal, is also comprising:

The modulation-demodulation signal storehouse determining to store described first modulation-demodulation signal whether less than;

When the modulation-demodulation signal storehouse determining to store described first modulation-demodulation signal less than time, described first modulation-demodulation signal is stored in described modulation-demodulation signal storehouse.

Further, said method, also comprises:

Obtain the digital signal of carrying data to be sent, described digital signal carries the rf frequency sending data acquisition to be sent;

Described digital signal is carried out modulation /demodulation, obtains the second modulation-demodulation signal;

Adopt the described rf frequency that described data to be sent are corresponding, launch described second modulation-demodulation signal.

Further, before the digital signal of data to be sent is carried in acquisition, also comprise:

The digital signal storehouse determining to store described digital signal whether less than;

When the digital signal storehouse determining to store described digital signal less than time, described digital signal is stored in described digital signal storehouse.

Further, said method, also comprises:

When the digital signal storehouse determining to store described digital signal is expired, abandon the described digital signal of digital signal storehouse to be entered.

The further feature of the application and advantage will be set forth in the following description, and, partly become apparent from specification, or understand by implementing the application.The object of the application and other advantages realize by structure specifically noted in write specification, claims and accompanying drawing and obtain.

Accompanying drawing explanation

Accompanying drawing is used to provide a further understanding of the present invention, and forms a part for specification, is used from explanation the present invention, is not construed as limiting the invention with the embodiment of the present invention one.In the accompanying drawings:

Fig. 1 is the existing structural representation carrying out the NFC mobile phone terminal of transfer of data;

The structural representation of the wireless communication terminal that Fig. 2 provides for the embodiment of the present invention;

The structural representation of the CLF manager that Fig. 3 provides for the embodiment of the present invention;

The flow chart of the data processing method that Fig. 4 provides for the embodiment of the present invention 1;

The flow chart of the data processing method that Fig. 5 provides for the embodiment of the present invention 2.

Embodiment

In order to be given in the implementation that pending data that a wireless communication terminal carries the non-contact signal of multiple rf frequency process, embodiments provide a kind of wireless communication terminal and data processing method, below in conjunction with Figure of description, the preferred embodiments of the present invention are described, be to be understood that, preferred embodiment described herein, only for instruction and explanation of the present invention, is not intended to limit the present invention.And when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.

The embodiment of the present invention provides a kind of wireless communication terminal, as shown in Figure 2, comprising: the different radio-frequency module 201 of multiple rf frequency, with multiple radio-frequency module multiple CLF202 and contactless front end CLF manager 203 one to one, wherein:

Described radio-frequency module 201, for receiving the Non-contact radio-frequency signal of self rf frequency; Described Non-contact radio-frequency signal is sent to the CLF202 corresponding with self;

Described CLF202, for receiving the described Non-contact radio-frequency signal that the described radio-frequency module 201 corresponding with self sends; Modulation /demodulation is carried out to described Non-contact radio-frequency signal, obtains the first modulation-demodulation signal; Described first modulation-demodulation signal is sent to described CLF manager 203, and described first modulation-demodulation signal carries pending data;

Described CLF manager 203, for receiving described first modulation-demodulation signal that described CLF202 sends; The pending data that described first modulation-demodulation signal carries are processed.

The wireless communication terminal shown in above-mentioned Fig. 2 that the embodiment of the present invention provides, can the Non-contact radio-frequency signal that sends of the different radio-frequency apparatus of received RF frequency, point-of-sale terminal (the POS that this radio-frequency apparatus can be machine for punching the card on bus, bank card pays, Point to Sale) machine and highway electric non-stop toll system (ETC, Electronic Toll Collection) the equipment such as machine for punching the card, transfer of data can also be carried out with the security module in Universal Integrated Circuit Card (UICC, Universal Integrated Circuit Card).This wireless communication terminal both can realize unidirectional transfer of data, can also realize two-way transfer of data.

Further, described CLF manager 203, also for obtaining the digital signal of carrying data to be sent; Described digital signal is sent to described CLF202;

Described CLF202, also for receiving the described digital signal that described CLF manager 203 sends; Modulation /demodulation is carried out to described digital signal, obtains the second modulation-demodulation signal; Described second modulation-demodulation signal is sent to the described radio-frequency module corresponding with self, and described second modulation-demodulation signal carries data to be sent;

Described radio-frequency module 201, also for receiving described second modulation-demodulation signal that the described CLF202 corresponding with self sends; The rf frequency of self is adopted to launch described second modulation-demodulation signal.

Further, above-mentioned wireless communication terminal, also comprises: power supply adaptor 204, wherein:

Described CLF manager 203, also for when needs start described CLF202, send power request to described power supply adaptor 204, described power request carries the power reguirements of powering to CLF202 to be launched;

Described power supply adaptor 204, for receiving the described power request that described CLF manager 203 sends; According to the power reguirements of powering to CLF202 to be launched carried in described power request, described CLF202 to be launched is powered.

When needs start CLF, the rf frequency of the radio-frequency module that will use can be selected on the interactive interface of wireless communication terminal by user, after CLF manager obtains the rf frequency information that will use, power request is sent to power supply adaptor, the power reguirements that the to be launched CLF corresponding with the radio-frequency module with this rf frequency is powered is carried in this power request, this power supply adaptor, according to the power reguirements of powering to CLF to be launched carried in the power request received, is powered to this CLF to be launched.When wireless communication terminal starts, power supply adaptor also can be powered to each CLF, and the radio-frequency module corresponding with CLF can receive Non-contact radio-frequency signal at any time.

Further, described contactless front end CLF manager 203, as shown in Figure 3, comprising: modulation-demodulation signal switch element 301, modulation-demodulation signal storehouse 302 and CLF routing unit 303, wherein:

Described modulation-demodulation signal switch element 301, for determine described modulation-demodulation signal storehouse 302 whether less than, when described modulation-demodulation signal storehouse 302 less than time, described first modulation-demodulation signal is allowed to enter described modulation-demodulation signal storehouse 302, when described modulation-demodulation signal storehouse 302 is expired, abandon described first modulation-demodulation signal;

Described modulation-demodulation signal storehouse 302, for storing described first modulation-demodulation signal; Described first modulation-demodulation signal is sent to described CLF routing unit 303;

Described CLF routing unit 303, for receiving described first modulation-demodulation signal that described modulation-demodulation signal storehouse 302 sends; The pending data that described first modulation-demodulation signal carries are processed.

Further, contactless front end CLF manager 203, also comprises: digital signal switch element 304 and digital signal storehouse 305, wherein:

Described digital signal switch element 304, for determine described digital signal storehouse 305 whether less than, when described digital signal storehouse 305 less than time, allow described digital signal to enter described digital signal storehouse 305, when described digital signal storehouse 305 is expired, abandon described digital signal;

Described digital signal storehouse 305, for storing described digital signal; Described digital signal is sent to described CLF routing unit 303;

Described CLF routing unit 303, also for receiving the described digital signal that described digital signal storehouse 305 sends; According to CLF routing rule, described digital signal is sent to corresponding described CLF202.

By the system that the above embodiment of the present invention provides, because wireless communication terminal can receive the Non-contact radio-frequency signal of different radio frequency frequency, the pending data that the Non-contact radio-frequency signal of different radio frequency frequency carries can be processed accordingly, achieve and on a wireless communication terminal, the pending data that the non-contact signal of multiple rf frequency is carried are processed.

Embodiment 1:

Based on same inventive concept, according to the wireless communication terminal that the above embodiment of the present invention provides, correspondingly, the embodiment of the present invention 1 additionally provides a kind of data processing method, as shown in Figure 4, comprising:

Step 401, the Non-contact radio-frequency signal of wireless communication terminal by specifying radio-frequency module to receive the rf frequency of this radio-frequency module with the different radio-frequency module of multiple rf frequency.

Step 402, carry out modulation /demodulation to this Non-contact radio-frequency signal, obtain the first modulation-demodulation signal, this first modulation-demodulation signal carries pending data.

Step 403, the pending data that this first modulation-demodulation signal carries to be processed.

In the method shown in above-mentioned Fig. 4 that the embodiment of the present invention 1 provides, wireless communication terminal can the Non-contact radio-frequency signal that sends of the different radio-frequency apparatus of received RF frequency, the pending data that this Non-contact radio-frequency signal carries can be carried out one-way transmission and are processed accordingly, pending data can also be sent to further the security module in UICC card, exchanges data is carried out with the data in security module, and send to corresponding radio-frequency apparatus after the data after exchange being processed, realize the transmitted in both directions of data.

Below in conjunction with accompanying drawing, with specific embodiment, method provided by the invention is described in detail.

Embodiment 2:

Based on same inventive concept, according to the wireless communication terminal that the above embodiment of the present invention provides, correspondingly, the embodiment of the present invention 1 additionally provides a kind of data processing method, modules in combined with radio communication terminal, carry out transfer of data for the security module in this wireless communication terminal and UICC, the flow chart of the data processing method that the embodiment of the present invention 2 provides as shown in Figure 5, specifically comprises following treatment step:

Power supply adaptor in step 501, wireless communication terminal is powered to CLF to be launched.

In this step, when wireless communication terminal needs to carry out data processing, need to start the CLF corresponding with the radio-frequency module in wireless communication terminal, the rf frequency of the radio-frequency module that will use can be selected on the interactive interface of wireless communication terminal by user, after CLF manager obtains the rf frequency information that will use, power request is sent to power supply adaptor, the power reguirements that the to be launched CLF corresponding with the radio-frequency module with this rf frequency is powered is carried in this power request, this power supply adaptor is according to the power reguirements of powering to CLF to be launched carried in the power request received, this CLF to be launched is powered.When wireless communication terminal starts, power supply adaptor also can be powered to each CLF, and the radio-frequency module corresponding with CLF can receive Non-contact radio-frequency signal at any time.

Step 502, radio-frequency module receive the Non-contact radio-frequency signal of the rf frequency of self.

In this step, the non-contact signal of the rf frequency of this radio-frequency apparatus is sent by radio-frequency apparatus, the equipment such as the POS that this radio-frequency apparatus can be machine for punching the card on bus, bank card pays and highway ETC machine for punching the card, the rf frequency of this radio-frequency module is identical with the rf frequency of radio-frequency apparatus, can receive this Non-contact radio-frequency signal that this radio-frequency apparatus sends.There is in this wireless communication terminal the different radio-frequency module of multiple rf frequency.

The Non-contact radio-frequency signal of reception is sent to CLF by step 503, this radio-frequency module.

After step 504, this CLF receive this Non-contact radio-frequency signal, modulation /demodulation is carried out to this Non-contact radio-frequency signal, obtains the first modulation-demodulation signal.

In this step, the non-contact signal sent by radio-frequency apparatus is analog signal, is digital signal by CLF by this non-contact signal modulation /demodulation.Wherein, this first modulation-demodulation signal carries pending data.

Step 505, modulation /demodulation switch element determination modulation-demodulation signal storehouse whether less than, if not, enter step 506, if so, enter step 507.

Step 506, when modulation /demodulation switch element determination modulation-demodulation signal storehouse completely time, abandon this first modulation-demodulation signal.

Step 507, when modulation /demodulation switch element determination modulation-demodulation signal storehouse less than time, this modulation /demodulation switch element allows the first modulation-demodulation signal to enter this modulation-demodulation signal storehouse.

The first modulation-demodulation signal entering self is at first sent to CLF routing unit by step 508, this modulation-demodulation signal storehouse.

After step 509, this CLF routing unit receive this first modulation-demodulation signal, according to CLF routing rule, this first modulation-demodulation signal is sent to the security module of the UICC corresponding with CLF.

In this step, CLF routing rule can be stored in this CLF routing unit, the path of carrying out Signal transmissions between CLF and security module is have recorded in this CLF routing rule, according to this CLF routing rule, the first modulation-demodulation signal that CLF sends can send in the security module corresponding with this CLF by this CLF routing unit.This CLF routing unit can also store CLF information table and security module information table.

Further, after the security module of UICC receives this first modulation-demodulation signal, the operation such as data analysis, data authentication can be carried out to the pending data of carrying in this first modulation-demodulation signal, the pending data of carrying in the data in self and this first modulation-demodulation signal are exchanged by the exchanges data instruction can also carried according to this first modulation-demodulation signal.This security module is carried out process and is operated the data result obtained by treating deal with data and by wireless communication terminal, the data to be sent of carrying in digital signal are sent to corresponding radio-frequency apparatus with the form of digital signal, and the concrete following steps 510-step 518 that adopts processes.

The security module of step 510, UICC sends digital signal to the digital signal switch element of wireless communication terminal.

Wherein, this digital signal carries data to be sent.

Step 511, digital signal switch element determine to store digital signal digital signal storehouse whether less than, if not, enter step 512, if so, enter step 513.

Step 512, when digital signal switch element determines that this digital signal storehouse completely, abandon this digital signal.

Step 513, when digital signal switch element determine this digital signal storehouse less than time, this digital signal switch element allows this digital signal to enter this digital signal storehouse.

The digital signal entering self is at first sent to CLF routing unit by step 514, this digital signal storehouse.

After step 515, this CLF routing unit receive this digital signal, according to CLF routing rule, this digital signal is sent to the CLF corresponding with this security module.

In this step, according to the path of carrying out Signal transmissions between the CLF recorded in CLF routing rule and security module, this digital signal is sent to the CLF corresponding with this security module.

After step 516, this CLF receive this digital signal, modulation /demodulation is carried out to this digital signal, obtain the second modulation-demodulation signal.

In this step, this CLF is demodulated into analog signal to this digital signal modulated, wherein carries data to be sent in this second modulation-demodulation signal.

This second modulation-demodulation signal is sent to the radio-frequency module corresponding with self by step 517, this CLF.

After step 518, this radio-frequency module receive this second modulation-demodulation signal, adopt the rf frequency of self that this second modulation-demodulation signal is sent to the radio-frequency apparatus with self with same radio frequency frequency.

In this step, in this second modulation-demodulation signal, carry data to be sent, after this second modulation-demodulation signal is sent to the radio-frequency apparatus with self with same radio frequency frequency by this radio-frequency module, complete the transmission to these data to be sent.

In sum, the scheme that the embodiment of the present invention provides, comprise: the different radio-frequency module of multiple rf frequency, with multiple radio-frequency module multiple CLF and contactless front end CLF manager one to one, wherein: radio-frequency module, for receiving the Non-contact radio-frequency signal of self rf frequency; This Non-contact radio-frequency signal is sent to the CLF corresponding with self; CLF, for receiving this Non-contact radio-frequency signal that the radio-frequency module corresponding with self sends; Modulation /demodulation is carried out to this Non-contact radio-frequency signal, obtains the first modulation-demodulation signal; This first modulation-demodulation signal is sent to CLF manager, and this first modulation-demodulation signal carries pending data; CLF manager, for receiving this first modulation-demodulation signal that CLF sends; The pending data that this first modulation-demodulation signal carries are processed.The scheme adopting the embodiment of the present invention to provide, achieves and processes the pending data that the non-contact signal of multiple rf frequency is carried on a wireless communication terminal.

The application describes with reference to according to the flow chart of the method for the embodiment of the present application, equipment (system) and computer program and/or block diagram.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block diagram and/or square frame and flow chart and/or block diagram and/or square frame.These computer program instructions can being provided to the processor of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computer or other programmable data processing device produce device for realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be loaded in computer or other programmable data processing device, make on computer or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computer or other programmable devices is provided for the step realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (11)

1. a wireless communication terminal, is characterized in that, comprising: the different radio-frequency module of multiple rf frequency, with multiple radio-frequency module multiple CLF and contactless front end CLF manager one to one, wherein:

Described radio-frequency module, for receiving the Non-contact radio-frequency signal of self rf frequency; Described Non-contact radio-frequency signal is sent to the CLF corresponding with self;

Described CLF, for receiving the described Non-contact radio-frequency signal that the described radio-frequency module corresponding with self sends; Modulation /demodulation is carried out to described Non-contact radio-frequency signal, obtains the first modulation-demodulation signal; Described first modulation-demodulation signal is sent to described CLF manager, and described first modulation-demodulation signal carries pending data;

Described CLF manager, for receiving described first modulation-demodulation signal that described CLF sends; The pending data that described first modulation-demodulation signal carries are processed.

2. wireless communication terminal as claimed in claim 1, is characterized in that, described CLF manager, also for obtaining the digital signal of carrying data to be sent; Described digital signal is sent to described CLF;

Described CLF, also for receiving the described digital signal that described CLF manager sends; Modulation /demodulation is carried out to described digital signal, obtains the second modulation-demodulation signal; Described second modulation-demodulation signal is sent to the described radio-frequency module corresponding with self, and described second modulation-demodulation signal carries data to be sent;

Described radio-frequency module, also for receiving described second modulation-demodulation signal that the described CLF corresponding with self sends; The rf frequency of self is adopted to launch described second modulation-demodulation signal.

3. wireless communication terminal as claimed in claim 1, is characterized in that, also comprise: power supply adaptor, wherein:

Described CLF manager, also for when needs start described CLF, send power request to described power supply adaptor, described power request carries the power reguirements of powering to CLF to be launched;

Described power supply adaptor, for receiving the described power request that described CLF manager sends; According to the power reguirements of powering to CLF to be launched carried in described power request, described CLF to be launched is powered.

4. wireless communication terminal as claimed in claim 1, it is characterized in that, described contactless front end CLF manager, comprising: modulation-demodulation signal switch element, modulation-demodulation signal storehouse and CLF routing unit, wherein:

Described modulation-demodulation signal switch element, for determine described modulation-demodulation signal storehouse whether less than, when described modulation-demodulation signal storehouse less than time, described first modulation-demodulation signal is allowed to enter described modulation-demodulation signal storehouse, when described modulation-demodulation signal storehouse is expired, abandon described first modulation-demodulation signal;

Described modulation-demodulation signal storehouse, for storing described first modulation-demodulation signal; Described first modulation-demodulation signal is sent to described CLF routing unit;

Described CLF routing unit, for receiving described first modulation-demodulation signal that described modulation-demodulation signal storehouse sends; The pending data that described first modulation-demodulation signal carries are processed.

5. wireless communication terminal as claimed in claim 4, it is characterized in that, described contactless front end CLF manager, also comprises: digital signal switch element and digital signal storehouse, wherein:

Described digital signal switch element, for determine described digital signal storehouse whether less than, when described digital signal storehouse less than time, allow described digital signal to enter described digital signal storehouse, when described digital signal storehouse completely time, abandon described digital signal;

Described digital signal storehouse, for storing described digital signal; Described digital signal is sent to described CLF routing unit;

Described CLF routing unit, also for receiving the described digital signal that described digital signal storehouse sends; According to CLF routing rule, described digital signal is sent to corresponding described CLF.

6. a data processing method, is characterized in that, comprising:

There is the Non-contact radio-frequency signal of wireless communication terminal by specifying radio-frequency module to receive the rf frequency of described radio-frequency module of the different radio-frequency module of multiple rf frequency;

Carry out modulation /demodulation to described Non-contact radio-frequency signal, obtain the first modulation-demodulation signal, described first modulation-demodulation signal carries pending data;

The pending data that described first modulation-demodulation signal carries are processed.

7. method as claimed in claim 6, is characterized in that, carrying out modulation /demodulation, after obtaining the first modulation-demodulation signal, also comprise this Non-contact radio-frequency signal described:

The modulation-demodulation signal storehouse determining to store described first modulation-demodulation signal whether less than;

When the modulation-demodulation signal storehouse determining to store described first modulation-demodulation signal less than time, described first modulation-demodulation signal is stored in described modulation-demodulation signal storehouse.

8. method as claimed in claim 7, is characterized in that, also comprise:

When the modulation-demodulation signal storehouse determining to store described first modulation-demodulation signal is expired, abandon described first modulation-demodulation signal of modulation-demodulation signal storehouse to be entered.

9. method as claimed in claim 6, is characterized in that, also comprise:

Obtain the digital signal of carrying data to be sent, described digital signal carries the rf frequency sending data acquisition to be sent;

Described digital signal is carried out modulation /demodulation, obtains the second modulation-demodulation signal;

Adopt the described rf frequency that described data to be sent are corresponding, launch described second modulation-demodulation signal.

10. method as claimed in claim 9, is characterized in that, before the digital signal of data to be sent is carried in acquisition, also comprises:

The digital signal storehouse determining to store described digital signal whether less than;

When the digital signal storehouse determining to store described digital signal less than time, described digital signal is stored in described digital signal storehouse.

11. methods as claimed in claim 10, is characterized in that, also comprise:

When the digital signal storehouse determining to store described digital signal is expired, abandon the described digital signal of digital signal storehouse to be entered.