CN205657749U - Mobile terminal and data transmission system - Google Patents

Abstract

The utility model provides a mobile terminal and data transmission system, this mobile terminal includes first casing, the setting is at the inside communication module of first casing, the setting is at a housing face's button, the first millimeter wave wireless transmission module who links to each other with communication module, with the data interface detection module that communication module links to each other, data interface detection module detects the data interface's of electronic display device access type through wireless communication network, control module links to each other with first millimeter wave wireless transmission module for switch over mobile terminal to the data transmission mode that corresponds with the testing result, and receipt transmitting data's instruction, and control first millimeter wave wireless transmission module according to transmitting data's instruction, in order to carry out wireless transmission through first millimeter wave wireless transmission module to data waiting for transmission. Through the utility model discloses can strengthen transmitting data's between mobile terminal and the electronic display device speed effectively, the use that effectively promotes the user is experienced.

Description

Mobile terminal and data transmission system

Technical field

This utility model relates to communication technical field, particularly relates to a kind of mobile terminal, electronic display unit and data transmission system.

Background technology

Development along with the epoch, mobile terminal has become as a part indispensable in people's life, in correlation technique, mobile terminal is being used mostly the bluetooth of low speed, WiMAX (Wireless-Fidelity on external display device data exchange ways, Wi-Fi), or file-sharing, audio frequency or image data transfer rate are the highest, or use traditional USB (universal serial bus) (Universal Serial Bus, USB) mouth realizes data-transformation facility, and user needs by using USB data line to transmit data.

Utility model content

One of technical problem that this utility model is intended to solve in correlation technique the most to a certain extent.

To this end, a purpose of the present utility model is to propose a kind of mobile terminal, it is possible to effectively strengthen the speed transmitting data between mobile terminal and electronic display unit, effectively promote the experience of user.

Another purpose of the present utility model is to propose a kind of electronic display unit.

Another purpose of the present utility model is to propose a kind of data transmission system.

For reaching above-mentioned purpose, the mobile terminal that this utility model first aspect embodiment proposes, including: the first housing；It is arranged on the communication module of described first enclosure interior；Being arranged on the button of described first surface of shell, described button is for receiving the instruction of the transmission data of user, and sends the instruction of described transmission data to control module；The the first millimeter wave wireless transport module being connected with described communication module；The data-interface detection module being connected with described communication module, the type of the data-interface that electronic display unit accesses is detected by described data-interface detection module by cordless communication network, obtain testing result, and described testing result is sent to control module, wherein, the type of described data-interface includes HDMI and USB interface；Described control module is connected with described first millimeter wave wireless transport module, described control module is for receiving the testing result that described data-interface detection module sends, and according to described testing result, mobile terminal switched to the data-transmission mode corresponding with described testing result, and receive the instruction of described transmission data, and according to the instruction of described transmission data, described first millimeter wave wireless transport module is controlled, data waiting for transmission are wirelessly transferred by described first millimeter wave wireless transport module.

The mobile terminal that this utility model first aspect embodiment proposes, by receiving the testing result that data-interface detection module sends, and according to testing result, mobile terminal switched to the data-transmission mode corresponding with testing result, and receive the instruction of transmission data, and according to the instruction of transmission data, the first millimeter wave wireless transport module is controlled, data waiting for transmission are wirelessly transferred by the first millimeter wave wireless transport module, can effectively strengthen the speed transmitting data between mobile terminal and electronic display unit, effectively promote the experience of user.

For reaching above-mentioned purpose, the electronic display unit that this utility model second aspect embodiment proposes, including: the second housing；Being arranged on the display screen on described second housing, described display screen is for showing audio frequency or image data；The the second millimeter wave wireless transport module being connected with described display screen；Being arranged on the data-interface on described second millimeter wave wireless transport module, be connected with described display screen by described data-interface by data wire, wherein, the type of described data-interface includes HDMI and USB interface；Connecting described data-interface and the data wire of described display screen, described data wire is for sending described audio frequency or image data to described display screen, so that audio frequency or image data are shown by described display screen.

The electronic display unit that this utility model second aspect embodiment proposes, audio frequency or the image data that mobile terminal sends is received by the second millimeter wave wireless transport module, and by data wire, audio frequency or image data are sent to display screen, so that audio frequency or image data are shown by display screen, can effectively strengthen the speed transmitting data between mobile terminal and electronic display unit, effectively promote the experience of user.

For reaching above-mentioned purpose, the data transmission system that this utility model third aspect embodiment proposes, including: the electronic display unit that the mobile terminal of first aspect embodiment proposition and second aspect embodiment propose.

The data transmission system that this utility model third aspect embodiment proposes, by combining mobile terminal and the electronic display unit of second aspect embodiment proposition that first aspect embodiment proposes, can effectively strengthen the speed transmitting data between mobile terminal and electronic display unit, effectively promote the experience of user.

Aspect and advantage that this utility model is additional will part be given in the following description, and part will become apparent from the description below, or is recognized by practice of the present utility model.

Accompanying drawing explanation

This utility model above-mentioned and/or that add aspect and advantage will be apparent from easy to understand, wherein from the following description of the accompanying drawings of embodiments:

Fig. 1 is the structural representation of the mobile terminal that this utility model one embodiment proposes；

Fig. 2 is the structural representation of the mobile terminal that another embodiment of this utility model proposes；

Fig. 3 is the structural representation of the electronic display unit that another embodiment of this utility model proposes；

Fig. 4 is the structural representation of the electronic display unit that another embodiment of this utility model proposes；

Fig. 5 is the structural representation of the data transmission system that another embodiment of this utility model proposes.

Detailed description of the invention

Of the present utility model embodiment is described below in detail, and the example of described embodiment is shown in the drawings, and the most same or similar label represents same or similar element or has the element of same or like function.The embodiment described below with reference to accompanying drawing is exemplary, is only used for explaining this utility model, and it is not intended that to restriction of the present utility model.On the contrary, all changes, amendment and the equivalent in the range of embodiment of the present utility model includes falling into attached claims spirit and intension.

Fig. 1 is the structural representation of the mobile terminal that this utility model one embodiment proposes, as it is shown in figure 1, this mobile terminal 10 includes the first housing 101；It is arranged on the communication module 102 within the first housing 101；Being arranged on the button 103 on the first housing 101 surface, button 103 is for receiving the instruction of the transmission data of user, and sends the instruction of transmission data to control module 106；The the first millimeter wave wireless transport module 104 being connected with communication module 102；The data-interface detection module 105 being connected with communication module 102, the type of the data-interface that electronic display unit accesses is detected by data-interface detection module 105 by cordless communication network, obtain testing result, and testing result is sent to control module 106, wherein, the type of data-interface includes HDMI and USB interface；Control module 106 is connected with the first millimeter wave wireless transport module 104, control module 106 is for receiving the testing result that data-interface detection module 105 sends, and according to testing result, mobile terminal 10 is switched to the data-transmission mode corresponding with testing result, and receive the instruction of transmission data, and the first millimeter wave wireless transport module 104 is controlled, data waiting for transmission are wirelessly transferred by the first millimeter wave wireless transport module 104 according to the instruction of transmission data.

In an embodiment of the present utility model, this mobile terminal 10 includes the first housing 101.

Specifically, first housing 101 is the supporting construction of mobile terminal 10, first housing 101 is located at communication module the 102, first millimeter wave wireless transport module the 104, first modulation /demodulation submodule 1041, first and sends on submodule 1042, and control module 106.

In an embodiment of the present utility model, this mobile terminal 10 also includes being arranged on the communication module 102 within the first housing 101.

Alternatively, communication module 102 is for by mobile terminal 10 access to wireless communication network.

In embodiment of the present utility model, cordless communication network can be the network supporting 60GHz millimetre-wave attenuator, and the software view of this network can be realized by USB2.0/USB3.0 host-host protocol or privately owned host-host protocol.

Specifically, before user transmits data by mobile terminal 10, can carry out opening the setting of wireless network at the network settings interface of mobile terminal 10, with by mobile terminal 10 access to wireless communication network.

In an embodiment of the present utility model, this mobile terminal 10 also includes the button 103 being arranged on the first housing 101 surface, and button 103 is for receiving the instruction of the transmission data of user, and sends the instruction of transmission data to control module 106.

In embodiment of the present utility model, it is referred to correlation technique and realizes the function of button 103, do not repeat them here.

In an embodiment of the present utility model, this mobile terminal 10 also includes the first millimeter wave wireless transport module 104 being connected with communication module 102, and the first millimeter wave wireless transport module 104 is arranged on the first shell Body 101 is internal.

Alternatively, in another embodiment of the present utility model, as in figure 2 it is shown, the first millimeter wave wireless transport module 104 includes the first modulation /demodulation submodule 1041 and the first transmission submodule 1042 being connected with the first modulation /demodulation submodule 1041.

In correlation technique, mobile terminal is being used mostly the bluetooth of low speed, WiMAX (Wireless-Fidelity on external display device data exchange ways, Wi-Fi), or file-sharing, audio frequency or image data transfer rate are the highest, or using traditional USB (universal serial bus) (Universal Serial Bus, USB) mouth to realize data-transformation facility, user needs by using USB data line to transmit data.

In embodiment of the present utility model, the transmitting physical interface (such as USB interface) of the first millimeter wave wireless transport module 104 it is not provided with on the first housing 101 surface of mobile terminal 10, internal by the first millimeter wave wireless transport module 104 seals the first housing 101 being arranged at mobile terminal 10, can effectively solve user needs the problem by using USB data line to transmit data.

In embodiment of the present utility model, by arranging the first millimeter wave wireless transport module 104 inside the first housing 101 of mobile terminal 10, first millimeter wave wireless transport module 104 uses the mm wave RF signal of 60GHz frequency range to carry out data transmission, wherein, 60GHz millimetre-wave attenuator is the wireless communication technology utilizing about 60GHz band communication, and the feature of 60GHz millimetre-wave attenuator is:

1, available spectral range width, information capacity is big；

2, easily realizing the antenna of narrow beam and high-gain, thus resolution is high, anti-interference is good；

3, the ability penetrating plasma is strong；

4, Doppler frequency shift is big, tests the speed highly sensitive.

Therefore, mobile terminal 10 in embodiment of the present utility model, the first millimeter wave wireless transport module 104 by built-in use 60GHz millimetre-wave attenuator technology, mobile terminal 10 is carried out seamless astomous Seal Design, user can be prevented effectively from and need the problem by using USB data line to transmit data, can strengthen the transfer rate of data simultaneously, and avoid and interfere between other communication equipments, effectively promote the experience of user.

First modulation /demodulation submodule 1041, for modulating a 60GHz mm wave RF signal, with the radiofrequency signal after being modulated by audio frequency waiting for transmission or the image data of storage in mobile terminal 10.

In embodiment of the present utility model, data waiting for transmission are the data of storage in mobile terminal 10, and data waiting for transmission can audio frequency in such as mobile terminal 10 or image data.

First sends submodule 1042, for sending the radiofrequency signal after modulation to electronic display unit.

Specifically, after first sends the 60GHz mm wave RF signal after submodule 1042 receives the first modulation /demodulation submodule 1041 modulation, a 60GHz mm wave RF signal after modulation is sent to electronic display unit, so that audio frequency or image data are shown by electronic display unit.

Alternatively, in another embodiment of the present utility model, as shown in Figure 2, first millimeter wave wireless transport module 104 also includes: first signal of telecommunication being connected with the first modulation /demodulation submodule 1041 generates submodule 1043, for generating the signal of telecommunication according to audio frequency waiting for transmission or image data, wherein, the signal of telecommunication is audio frequency or signal of video signal.

Alternatively, the first signal of telecommunication generation submodule 1043 is additionally operable to send to the first modulation /demodulation submodule 1041 signal of telecommunication.

Alternatively, first modulation /demodulation submodule 1041 can also generate, specifically for receiving first signal of telecommunication, the signal of telecommunication that submodule 1043 sends, and the signal of telecommunication is modulated on a 60GHz mm wave RF signal, with the 60GHz mm wave RF signal after being modulated.

nullSpecifically，When mobile terminal 10 receives the instruction of the transmission data of user，When audio frequency waiting for transmission or image data are transmitted by triggering，Audio frequency to be transmitted or image data that first signal of telecommunication generation submodule 1043 can be selected according to user generate corresponding audio frequency or signal of video signal，And corresponding audio frequency or image signal transmitting are delivered to the first modulation /demodulation submodule 1041，The various signals of telecommunication can be converted into the digital modulation signals being suitable to transmission by the modulation function of the first modulation /demodulation submodule 1041，Will the frequency spectrum shift of the signal of telecommunication in channel passband or in certain frequency range therein，Such as，First modulation /demodulation submodule 1041 is by the spectrum modulation of the signal of telecommunication to a 60GHz mm wave RF signal，And the 60GHz mm wave RF signal after modulation is sent to the first transmission submodule 1042，Audio frequency waiting for transmission or image data are wirelessly transferred so that the first millimeter wave wireless transport module 104 can send submodule 1042 by first in about 60GHz frequency range.

Alternatively, in another embodiment of the present utility model, as in figure 2 it is shown, the first millimeter wave wireless transport module also includes: the first reception submodule 1044 being connected with the first modulation /demodulation submodule 1041, first receives submodule 1044 for receiving the radiofrequency signal that electronic display unit sends.

First receives submodule 1044 is used for receiving the 2nd 60GHz mm wave RF signal that electronic display unit sends, and sends the 2nd 60GHz mm wave RF signal to the first modulation /demodulation submodule 1041.

Receive submodule 1044 by first and can strengthen the receiving velocity of mobile terminal 10 data, effectively promote the efficiency of transmission of data between mobile terminal 10 data and electronic display unit, promote the experience of user.

In embodiment of the present utility model, mobile terminal 10 also is able to while can sending data receive data, electronic display unit send for the 2nd 60GHz mm wave RF signal.

Specifically, first receives submodule 1044 after receiving the 2nd 60GHz mm wave RF signal, 2nd 60GHz mm wave RF signal is sent to the first modulation /demodulation submodule 1041, so that the 2nd 60GHz mm wave RF signal received can be demodulated obtaining audio frequency or image data by the first modulation /demodulation submodule 1041.

Alternatively, first modulation /demodulation submodule 1041 can be also used for receiving the 2nd 60GHz mm wave RF signal that the first reception submodule 1044 sends, and the 2nd 60GHz mm wave RF signal is demodulated obtaining audio frequency or the image data of electronic display unit transmission.

In an embodiment of the present utility model, this mobile terminal 10 also includes the data-interface detection module 105 being connected with communication module 102, the type of the data-interface that electronic display unit accesses is detected by data-interface detection module 105 by cordless communication network, obtain testing result, and testing result is sent to control module 106, wherein, the type of data-interface includes HDMI and USB interface.

Wherein, HDMI (High Definition Multimedia Interface, HDMI) it is a kind of digitized video/audio interface technology, it it is the tailored version digital interface being suitable for image transmission, it can transmit audio frequency and signal of video signal simultaneously, Video Graphics Array (Video Graphics Array, VGA) interface is the special purpose interface using VGA standard output data.

In an embodiment of the present utility model, in this mobile terminal 10, control module 106 is connected with the first millimeter wave wireless transport module 104, control module 106 is for receiving the testing result that data-interface detection module 105 sends, and according to testing result, mobile terminal 10 is switched to the data-transmission mode corresponding with testing result, and receive the instruction of transmission data, and the first millimeter wave wireless transport module 104 is controlled, data waiting for transmission are wirelessly transferred by the first millimeter wave wireless transport module 104 according to the instruction of transmission data.

In embodiment of the present utility model, HDMI different data-transmission mode corresponding with USB interface, the type of the data-interface that electronic display unit accesses can be detected by cordless communication network by data-interface detection module 105 built-in in mobile terminal 10, so that the data-transmission mode of mobile terminal 10 is switched over by control module 106 according to testing result, the transmission of audio frequency or image data is carried out by the data-transmission mode mated according to the data-interface accessed with electronic display unit, can be between enhancing mobile terminal 10 and electronic display unit while transmitted data rates, the transmission quality of effective guarantee audio frequency or image data, effectively promote the experience of user.

In the present embodiment, by receiving the testing result that data-interface detection module sends, and according to testing result, mobile terminal switched to the data-transmission mode corresponding with testing result, and receive the instruction of transmission data, and according to the instruction of transmission data, the first millimeter wave wireless transport module is controlled, data waiting for transmission are wirelessly transferred by the first millimeter wave wireless transport module, can effectively strengthen the speed transmitting data between mobile terminal and electronic display unit, effectively promote the experience of user.

Fig. 3 is the structural representation of the electronic display unit that another embodiment of this utility model proposes, as it is shown on figure 3, this electronic display unit 30 includes the second housing 301；Being arranged on the display screen 302 on the second housing 301, display screen 302 is for showing audio frequency or image data；The the second millimeter wave wireless transport module 303 being connected with display screen 302；Being arranged on the data-interface 304 on the second millimeter wave wireless transport module 303, be connected with display screen 302 by data-interface 304 by data wire 305, wherein, the type of data-interface 304 includes HDMI and USB interface；Connecting data-interface 304 and the data wire 305 of display screen 302, data wire 305 is for sending audio frequency or image data to display screen 302, so that audio frequency or image data are shown by display screen 302.

Alternatively, the electronic display unit 30 in this utility model can be TV or projector.

In an embodiment of the present utility model, this electronic display unit 30 includes the second housing 301.

Specifically, the second housing 301 is the supporting construction of electronic display unit 30, and the display screen 302 on the second housing 301 is for showing audio frequency or image data.

In an embodiment of the present utility model, this electronic display unit 30 also includes the display screen 302 being arranged on the second housing 301, and display screen 302 is for showing audio frequency or image data.

Wherein, display screen 302 belongs to I/O equipment, i.e. input-output equipment, is a kind of show tools that certain e-file is shown on screen be re-reflected into human eye by specific transmission equipment.

In embodiment of the present utility model, second millimeter wave wireless transport module 303 receives audio frequency or the image data that mobile terminal sends, and by data wire 305, audio frequency or image data are transmitted to display screen 302, display screen 302 audio frequency or image data are shown to user.

It is alternatively possible to the second millimeter wave wireless transport module 303 is connected with display screen 302, to carry out data transmission by HDMI data wire 305 or VGA data wire 305.

In an embodiment of the present utility model, this electronic display unit 30 also includes the second millimeter wave wireless transport module 303 being connected with display screen 302.

In correlation technique, electronic display unit is being used mostly the bluetooth of low speed, WiMAX (Wireless-Fidelity on the data exchange ways of mobile terminal, Wi-Fi), or file-sharing, audio frequency or image data transfer rate are the highest, or using traditional USB (universal serial bus) (Universal Serial Bus, USB) mouth to realize data-transformation facility, user needs by using USB data line to transmit data.

In embodiment of the present utility model, second millimeter wave wireless transport module 303 of electronic display unit 30 is not provided with and the transmitting physical interface (such as USB interface) of mobile terminal transmission data, on second millimeter wave wireless transport module 303, only setting and display screen 302 transmit HDMI or the USB interface of data, can effectively solve user by mobile terminal data transmit to electronic display unit 30 time, need by use USB data line transmission data problem.

In embodiment of the present utility model, by arranging the second millimeter wave wireless transport module 303 in electronic display unit 30, second millimeter wave wireless transport module 303 uses the mm wave RF signal of 60GHz frequency range to carry out data transmission, wherein, 60GHz millimetre-wave attenuator is the wireless communication technology utilizing about 60GHz band communication, and the feature of 60GHz millimetre-wave attenuator is:

1, available spectral range width, information capacity is big；

2, easily realizing the antenna of narrow beam and high-gain, thus resolution is high, anti-interference is good；

3, the ability penetrating plasma is strong；

4, Doppler frequency shift is big, tests the speed highly sensitive.

Therefore, electronic display unit 30 in embodiment of the present utility model, the second millimeter wave wireless transport module 303 by built-in use 60GHz millimetre-wave attenuator technology, electronic display unit 30 is carried out seamless astomous Seal Design, user can be prevented effectively from and need the problem by using USB data line to transmit data, can strengthen the transfer rate of data simultaneously, and avoid and interfere between other communication equipments, effectively promote the experience of user.

Alternatively, in another embodiment of the present utility model, as shown in Figure 4, the second millimeter wave wireless transport module 303 includes the second reception submodule 3031 and receives the second modulation /demodulation submodule 3032 that submodule 3031 is connected with second, wherein,

Second receives submodule 3031 is used for obtaining the radiofrequency signal that mobile terminal sends, and sends radiofrequency signal to the second modulation /demodulation submodule 3032.

Electronic display unit 30 can be strengthened by the second reception submodule 3031 and receive the speed of data, effectively promote the efficiency of transmission of data between mobile terminal data and electronic display unit 30, promote the experience of user.

In embodiment of the present utility model, electronic display unit 30 also is able to while being able to receive that data send data, the 60GHz mm wave RF signal sent for mobile terminal that electronic display unit 30 receives.

Specifically, second receives submodule 3031 after receiving 60GHz mm wave RF signal, 60GHz mm wave RF signal is sent to the second modulation /demodulation submodule 3032, so that the 60GHz mm wave RF signal received can be demodulated obtaining audio frequency or image data by the second modulation /demodulation submodule 3032.

Second modulation /demodulation submodule 3032 for being demodulated obtaining audio frequency or the image data of mobile terminal transmission to radiofrequency signal.

In embodiment of the present utility model, after second modulation /demodulation submodule 3032 gets 60GHz mm wave RF signal, 60GHz mm wave RF signal is demodulated obtaining audio frequency or image data, and audio frequency or image data are sent to the second transmission submodule 3034.

Alternatively, in another embodiment of the present utility model, as shown in Figure 4, the second millimeter wave wireless transport module 303 also includes:

Receive the communicator module 3033 that submodule 3031 is connected with second, communicator module 3033 is for by the second millimeter wave wireless transport module 303 access to wireless communication network.

Alternatively, communicator module 3033 is for by electronic display unit 30 access to wireless communication network.

In embodiment of the present utility model, cordless communication network can be the network supporting 60GHz millimetre-wave attenuator, and the software view of this network can be realized by USB2.0/USB3.0 host-host protocol or privately owned host-host protocol.

Specifically, before user is by mobile terminal transmission data, can carry out opening the setting of wireless network at the network settings interface of electronic display unit 30, with by electronic display unit 30 access to wireless communication network.

Alternatively, in another embodiment of the present utility model, as shown in Figure 4, the second millimeter wave wireless transport module 303 also includes:

The the second transmission submodule 3034 being connected with the second modulation /demodulation submodule 3032, second sends submodule 3034 for sending the radiofrequency signal after modulation to mobile terminal.

In embodiment of the present utility model, electronic display unit 30 also is able to while being able to receive that data send data, electronic display unit 30 send for 60GHz mm wave RF signal.

Alternatively, the second transmission submodule 3034 may be used for sending to mobile terminal 60GHz mm wave RF signal, it is also possible to audio frequency or image data for the second modulation /demodulation submodule 3032 demodulation being got send to display screen 302.

Alternatively, in another embodiment of the present utility model, as shown in Figure 4, the second millimeter wave wireless transport module 303 also includes:

Second signal of telecommunication being connected with the second modulation /demodulation submodule 3032 generates submodule 3035, and for generating the signal of telecommunication according to audio frequency waiting for transmission in electronic display unit 30 or image data, wherein, the signal of telecommunication is audio frequency or signal of video signal.

In embodiment of the present utility model, electronic display unit 30 also is able to while being able to receive that data send data, electronic display unit 30 send for 60GHz mm wave RF signal.

Alternatively, second signal of telecommunication generates submodule 3035 and generates the signal of telecommunication according to audio frequency waiting for transmission in electronic display unit 30 or image data, and the signal of telecommunication is sent to the second modulation /demodulation submodule 3032, so that the signal of telecommunication is modulated on 60GHz mm wave RF signal by the second modulation /demodulation submodule 3032, send submodule 3034 by second and 60GHz mm wave RF signal is sent to mobile terminal.

In an embodiment of the present utility model, this electronic display unit 30 also includes the data-interface 304 being arranged on the second millimeter wave wireless transport module 303, by data wire 305, data-interface 304 is connected with display screen 302, wherein, the type of data-interface 304 includes HDMI and USB interface.

In an embodiment of the present utility model, this electronic display unit 30 also includes connecting data-interface 304 and the data wire 305 of display screen 302, data wire 305 is for sending audio frequency or image data to display screen 302, so that audio frequency or image data are shown by display screen 302.

In embodiment of the present utility model, data wire 305 can be HDMI data wire and VGA data wire.Wherein, HDMI data wire is for transmitting the data of the second millimeter wave wireless transport module 303 to display screen 302 by HDMI, and VGA data wire is for transmitting the data of the second millimeter wave wireless transport module 303 to display screen 302 by USB interface.

Specifically, before user uses mobile terminal transmission audio frequency or image data, the second millimeter wave wireless transport module 303 can be connected with display screen 302, to carry out data transmission by HDMI data wire or VGA data wire.

In the present embodiment, audio frequency or the image data that mobile terminal sends is received by the second millimeter wave wireless transport module, and by data wire, audio frequency or image data are sent to display screen, so that audio frequency or image data are shown by display screen, can effectively strengthen the speed transmitting data between mobile terminal and electronic display unit, effectively promote the experience of user.

Fig. 5 is the structural representation of the data transmission system that another embodiment of this utility model proposes, as it is shown in figure 5, this data transmission system 50 includes mobile terminal 501 and electronic display unit 502.Wherein,

In an embodiment of the present invention, this data transmission system 50 includes mobile terminal 501.

In an embodiment of the present invention, this data transmission system 50 also includes electronic display unit 502.

It should be noted that the aforementioned explanation to mobile terminal and electronic display unit embodiment is also applied for the data transmission system 50 of this embodiment, it realizes principle and is similar to, and here is omitted.

In the present embodiment, it is possible to effectively strengthen the speed transmitting data between mobile terminal and electronic display unit, effectively promote the experience of user.

It should be noted that in description of the present utility model, term " first ", " second " etc. are only used for describing purpose, and it is not intended that indicate or hint relative importance.Additionally, in description of the present utility model, except as otherwise noted, " multiple " are meant that two or more.

In flow chart or at this, any process described otherwise above or method description are construed as, represent and include one or more module for the code of the executable instruction of the step that realizes specific logical function or process, fragment or part, and the scope of preferred implementation of the present utility model includes other realization, wherein can not be by order that is shown or that discuss, including according to involved function by basic mode simultaneously or in the opposite order, perform function, this should be understood by embodiment person of ordinary skill in the field of the present utility model.

Should be appreciated that each several part of the present utility model can realize by hardware, software, firmware or combinations thereof.In the above-described embodiment, multiple steps or method can realize with software or the firmware that storage in memory and is performed by suitable instruction execution system.Such as, if realized with hardware, as in another embodiment, can realize by any one in following technology well known in the art or their combination: there is the discrete logic of logic gates for data signal realizes logic function, there is the special IC of suitable combination logic gate circuit, programmable gate array (PGA), field programmable gate array (FPGA) etc..

Those skilled in the art are appreciated that realizing all or part of step that above-described embodiment method carries can be by program and complete to instruct relevant hardware, described program can be stored in a kind of computer-readable recording medium, this program upon execution, including one or a combination set of the step of embodiment of the method.

Additionally, each functional unit in each embodiment of this utility model can be integrated in a processing module, it is also possible to be that unit is individually physically present, it is also possible to two or more unit are integrated in a module.Above-mentioned integrated module both can realize to use the form of hardware, it would however also be possible to employ the form of software function module realizes.If described integrated module is using the form realization of software function module and as independent production marketing or use, it is also possible to be stored in a computer read/write memory medium.

Storage medium mentioned above can be read only memory, disk or CD etc..

In the description of this specification, the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means that the specific features, structure, material or the feature that combine this embodiment or example description are contained at least one embodiment of the present utility model or example.In this manual, the schematic representation to above-mentioned term is not necessarily referring to identical embodiment or example.And, the specific features of description, structure, material or feature can combine in any one or more embodiments or example in an appropriate manner.

Although above it has been shown and described that embodiment of the present utility model, it is understandable that, above-described embodiment is exemplary, it is not intended that to restriction of the present utility model, above-described embodiment can be changed in the range of this utility model, revises, replace and modification by those of ordinary skill in the art.

Claims (10)

1. a mobile terminal, it is characterised in that including:

First housing；

It is arranged on the communication module of described first enclosure interior；

Being arranged on the button of described first surface of shell, described button is for receiving the instruction of the transmission data of user, and sends the instruction of described transmission data to control module；

The the first millimeter wave wireless transport module being connected with described communication module；

The data-interface detection module being connected with described communication module, the type of the data-interface that electronic display unit accesses is detected by described data-interface detection module by cordless communication network, obtain testing result, and described testing result is sent to control module, wherein, the type of described data-interface includes HDMI and USB interface；

Described control module is connected with described first millimeter wave wireless transport module, described control module is for receiving the testing result that described data-interface detection module sends, and according to described testing result, mobile terminal switched to the data-transmission mode corresponding with described testing result, and receive the instruction of described transmission data, and according to the instruction of described transmission data, described first millimeter wave wireless transport module is controlled, data waiting for transmission are wirelessly transferred by described first millimeter wave wireless transport module.

2. mobile terminal as claimed in claim 1, it is characterised in that described first millimeter wave wireless transport module include the first modulation /demodulation submodule and be connected with described first modulation /demodulation submodule first send submodule, wherein,

Described first modulation /demodulation submodule, for audio frequency waiting for transmission or the image data of storage in described mobile terminal are modulated 60GHz mm wave RF signal, with the radiofrequency signal after being modulated, described first sends submodule, for sending the radiofrequency signal after described modulation to electronic display unit.

3. mobile terminal as claimed in claim 2, it is characterised in that described first millimeter wave wireless transport module also includes:

First signal of telecommunication being connected with described first modulation /demodulation submodule generates submodule, and for generating the signal of telecommunication according to described audio frequency waiting for transmission or image data, wherein, the described signal of telecommunication is audio frequency or signal of video signal.

4. mobile terminal as claimed in claim 2, it is characterised in that described first millimeter wave wireless transport module also includes:

The the first reception submodule being connected with described first modulation /demodulation submodule, described first receives submodule for receiving the radiofrequency signal that described electronic display unit sends.

5. a data transmission system, it is characterised in that including:

Mobile terminal as described in any one of claim 1-4；And

Electronic display unit, wherein, described electronic display unit includes:

Second housing；

Being arranged on the display screen on described second housing, described display screen is for showing audio frequency or image data；

The the second millimeter wave wireless transport module being connected with described display screen；

Being arranged on the data-interface on described second millimeter wave wireless transport module, be connected with described display screen by described data-interface by data wire, wherein, the type of described data-interface includes HDMI and USB interface；

Connecting described data-interface and the data wire of described display screen, described data wire is for sending described audio frequency or image data to described display screen, so that audio frequency or image data are shown by described display screen.

6. data transmission system as claimed in claim 5, it is characterised in that described second millimeter wave wireless transport module includes the second reception submodule and receives the second modulation /demodulation submodule that submodule is connected with described second, wherein,

Described second receives submodule for obtaining the radiofrequency signal that mobile terminal sends, and described radiofrequency signal is sent to described second modulation /demodulation submodule, described second modulation /demodulation submodule for being demodulated obtaining audio frequency or the image data of mobile terminal transmission to described radiofrequency signal.

7. data transmission system as claimed in claim 6, it is characterised in that described second millimeter wave wireless transport module also includes:

Receiving, with described second, the communicator module that submodule is connected, described communicator module is for by described second millimeter wave wireless transport module access to wireless communication network.

8. data transmission system as claimed in claim 7, it is characterised in that described second millimeter wave wireless transport module also includes:

The the second transmission submodule being connected with described second modulation /demodulation submodule, described second sends submodule for sending the radiofrequency signal after modulation to mobile terminal.

9. data transmission system as claimed in claim 8, it is characterised in that described second millimeter wave wireless transport module also includes:

Second signal of telecommunication being connected with described second modulation /demodulation submodule generates submodule, and for generating the signal of telecommunication according to audio frequency waiting for transmission in electronic display unit or image data, wherein, the described signal of telecommunication is audio frequency or signal of video signal.

10. the data transmission system as described in any one of claim 5-9, it is characterised in that described electronic display unit is TV or projector.