CN105720355A - Mobile terminal and communication processing method therefor - Google Patents

Mobile terminal and communication processing method therefor Download PDF

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Publication number
CN105720355A
CN105720355A CN201610067933.1A CN201610067933A CN105720355A CN 105720355 A CN105720355 A CN 105720355A CN 201610067933 A CN201610067933 A CN 201610067933A CN 105720355 A CN105720355 A CN 105720355A
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CN
China
Prior art keywords
antenna
wifi
accommodation space
mimo
wifi double
Prior art date
Application number
CN201610067933.1A
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Chinese (zh)
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CN105720355B (en
Inventor
李鹏鹏
Original Assignee
努比亚技术有限公司
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Publication date
Application filed by 努比亚技术有限公司 filed Critical 努比亚技术有限公司
Priority to CN201610067933.1A priority Critical patent/CN105720355B/en
Publication of CN105720355A publication Critical patent/CN105720355A/en
Priority claimed from PCT/CN2016/112876 external-priority patent/WO2017128918A1/en
Application granted granted Critical
Publication of CN105720355B publication Critical patent/CN105720355B/en

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Classifications

    • HELECTRICITY
    • H01BASIC ELECTRIC ELEMENTS
    • H01QANTENNAS, i.e. RADIO AERIALS
    • H01Q1/00Details of, or arrangements associated with, antennas
    • H01Q1/12Supports; Mounting means
    • H01Q1/22Supports; Mounting means by structural association with other equipment or articles
    • HELECTRICITY
    • H01BASIC ELECTRIC ELEMENTS
    • H01QANTENNAS, i.e. RADIO AERIALS
    • H01Q1/00Details of, or arrangements associated with, antennas
    • H01Q1/52Means for reducing coupling between antennas; Means for reducing coupling between an antenna and another structure
    • H01Q1/521Means for reducing coupling between antennas; Means for reducing coupling between an antenna and another structure reducing the coupling between adjacent antennas
    • HELECTRICITY
    • H01BASIC ELECTRIC ELEMENTS
    • H01QANTENNAS, i.e. RADIO AERIALS
    • H01Q21/00Antenna arrays or systems
    • H01Q21/28Combinations of substantially independent non-interacting antenna units or systems
    • HELECTRICITY
    • H01BASIC ELECTRIC ELEMENTS
    • H01QANTENNAS, i.e. RADIO AERIALS
    • H01Q21/00Antenna arrays or systems
    • H01Q21/30Combinations of separate antenna units operating in different wavebands and connected to a common feeder system

Abstract

The invention discloses a mobile terminal and a communication processing method therefor. The mobile terminal comprises a shell, wherein the shell adopts a metal material, and includes a top shell, a middle shell and a bottom shell; a gap is formed between the top shell and the middle shell, and between the middle shell and the bottom shell; WiFi (wireless fidelity) dual antennas, two feed ports corresponding to the WiFi dual antennas, and matching circuits in one-to-one correspondence with the two feed ports are arranged in the accommodating space of the shell; a controller and a wireless communication unit are further arranged in the accommodating space of the shell; and the controller is used for controlling the two feed ports of the WiFi dual antennas to be in feed states, adjusting the two matching circuits to enable the WiFi dual antennas to be resonant at different WiFi communication frequency bands, and controlling the wireless communication unit to perform communication at different frequency bands through the WiFi dual antennas. By adoption of the mobile terminal, the space for setting the WiFi dual antennas in the full-metal-shell mobile terminal can be saved, and dual-frequency-band coverage of the WiFi dual antennas can be realized.

Description

Mobile terminal and communication processing method thereof

Technical field

The present invention relates to the antenna technology of the communications field, particularly relate to a kind of mobile terminal and communication processing method thereof.

Background technology

Recent years, all-metal mobile terminal due to good looking appearance, structural strength is big, heat conductivility is superior and enjoys the favor of domestic and international manufacturer.But, along with the increase of metal coverage rate ratio, thickness is more and more thinner, and accordingly, the space leaving mobile terminal antenna design for is more and more less, thus significantly increasing the design difficulty of mobile terminal antenna.Simultaneously, in order to promote the performance of antenna, meet the application demand of consumer, need in all-metal mobile terminal, realize diversity antenna, GPS (GPS, GlobalPositioningSystem) design of antenna and other antenna, this just further have compressed the design space of Wireless Fidelity (WiFi, WirelessFidelity) antenna, add the difficulty of mobile terminal internal antenna design, weaken the radiance of WiFi double antenna.

Summary of the invention

The embodiment of the present invention provides a kind of mobile terminal and communication processing method thereof, it is possible to save the space arranging WiFi double antenna inside all-metal housing mobile terminal, it is achieved the two-band of WiFi double antenna covers.

First aspect, the embodiment of the present invention provides a kind of mobile terminal, and described mobile terminal includes:

Housing, described housing adopts metal material, including top shell, central enclosure and bottom shell, offers gap between described top shell and described central enclosure and between described central enclosure and described bottom shell;

The accommodation space of described housing is provided with WiFi double antenna, corresponding described WiFi double antenna two feed port and with said two feed port match circuit one to one;

The accommodation space of described housing is additionally provided with controller and wireless communication unit;

Described controller, said two feed port for controlling described WiFi double antenna is in feed condition, regulating said two match circuit makes described WiFi double antenna resonance in different WiFi communication frequency ranges, and controls described wireless communication unit and carry out the communication of different frequency range via described WiFi double antenna.

Preferably, the Part I of the first end accommodation space of described housing is provided with the feed end match circuit of whole irradiation structures of described WiFi double antenna, the feed port of corresponding described WiFi double antenna and correspondence, is provided with the feed port of corresponding described WiFi double antenna and the feed end match circuit of correspondence in the Part I of the second end accommodation space of described housing.

Preferably, the Part II of described first end accommodation space is provided with the ground strip that multiple-input, multiple-output MIMO diversity antenna is corresponding with described MIMO diversity antenna, and the ground strip that described MIMO diversity antenna is corresponding is used for described MIMO diversity antenna and described WiFi antenna are carried out uncoupling.

Preferably, the Part II of described the second end accommodation space is provided with the ground strip that MIMO main antenna is corresponding with described MIMO main antenna, and the ground strip that described MIMO main antenna is corresponding carries out uncoupling for the WiFi double antenna that the Part I of described MIMO main antenna and described first end accommodation space is arranged.

Preferably, the Part II of described first end accommodation space is provided with GPS gps antenna.

Preferably, the ground strip corresponding with described MIMO diversity antenna is arranged on the corresponding part of described first end accommodation space and described gap, and the ground strip corresponding with described MIMO main antenna is arranged on the corresponding part of described the second end accommodation space and described gap.

Preferably, whole irradiation structures of described WiFi double antenna are independent of the irradiation structure of described MIMO diversity antenna.

Preferably, the Part I of the second end accommodation space of described housing is provided with the feed end match circuit of whole irradiation structures of described WiFi double antenna, the feed port of corresponding described WiFi double antenna and correspondence, is provided with the feed port of corresponding described WiFi double antenna and the feed end match circuit of correspondence in the Part I of described first end accommodation space.

Preferably, the Part II of described first end accommodation space is provided with the ground strip that MIMO diversity antenna is corresponding with described MIMO diversity antenna, and the ground strip that described MIMO diversity antenna is corresponding carries out uncoupling for the WiFi antenna that the Part II of described MIMO diversity antenna and described first end accommodation space is arranged.

Preferably, the Part II of described the second end accommodation space is provided with the ground strip that MIMO main antenna is corresponding with described MIMO main antenna, and the ground strip that described main antenna is corresponding carries out uncoupling for the WiFi antenna that the Part I of described MIMO main antenna and described the second end accommodation space is arranged.

Preferably, the Part II of described first end accommodation space is provided with gps antenna.

Preferably, the ground strip corresponding with described MIMO diversity antenna is arranged on the corresponding part of described first end accommodation space and described gap, and the ground strip corresponding with described MIMO main antenna is arranged on the corresponding part of described the second end accommodation space and described gap.

Preferably, whole irradiation structures of described WiFi double antenna are independent of the irradiation structure of described MIMO main antenna and described MIMO diversity antenna.

Preferably, the Part I of the first end accommodation space of described housing is provided with the feed end match circuit of the partial radiation structure of described WiFi double antenna, the feed port of corresponding described WiFi double antenna and correspondence.

Preferably, the Part III of the first end accommodation space of described housing is provided with the feed end match circuit of the partial radiation structure of described WiFi double antenna, the feed port of corresponding described WiFi double antenna and correspondence.

Preferably, the Part II of described first end accommodation space is provided with two ground strips that MIMO diversity antenna is corresponding with described MIMO diversity antenna, and two ground strips that described MIMO diversity antenna is corresponding are used for described MIMO diversity antenna and described WiFi double antenna are carried out uncoupling.

The Part II of described the second end accommodation space is provided with the ground strip that MIMO main antenna is corresponding with described MIMO main antenna, for described MIMO main antenna and described WiFi antenna are carried out uncoupling.

Preferably, the ground strip corresponding with described MIMO diversity antenna is arranged on the corresponding part of described first end accommodation space and described gap, and the ground strip corresponding with described MIMO main antenna is arranged on the corresponding part of described the second end accommodation space and described gap.

Preferably, described WiFi double antenna and described MIMO diversity antenna irradiation structure altogether.

Preferably, described controller, being additionally operable to regulate match circuit corresponding to described feed port makes described WiFi double antenna go out different WiFi communication frequency ranges based on the irradiation structure resonance of described WiFi double antenna self, or, regulate the match circuit that described feed port is corresponding, make described WiFi double antenna resonance go out different WiFi communication frequency ranges in irradiation structure and the described case resonant based on described WiFi double antenna self.

Second aspect, the embodiment of the present invention provides a kind of communication processing method for mobile terminal, and described mobile terminal includes:

Housing, described housing adopts metal material, including top shell, central enclosure and bottom shell, offers gap between described top shell and described central enclosure and between described central enclosure and described bottom shell;

The accommodation space of described housing is provided with WiFi double antenna, corresponding described WiFi double antenna two feed port and with said two feed port match circuit one to one;

The accommodation space of described housing is additionally provided with controller and wireless communication unit;

Described method includes:

Described controller controls the said two feed port of described WiFi double antenna and is in feed condition, regulating said two match circuit makes described WiFi double antenna resonance in different WiFi communication frequency ranges, and controls described wireless communication unit and carry out the communication of different frequency range via described WiFi double antenna.

Preferably, the Part I of the first end accommodation space of described housing is provided with the feed end match circuit of whole irradiation structures of described WiFi double antenna, the feed port of corresponding described WiFi double antenna and correspondence, is provided with the feed port of corresponding described WiFi double antenna and the feed end match circuit of correspondence in the Part I of the second end accommodation space of described housing.

Preferably, the Part II of described first end accommodation space is provided with the ground strip that multiple-input, multiple-output MIMO diversity antenna is corresponding with described MIMO diversity antenna, and the ground strip that described MIMO diversity antenna is corresponding is used for described MIMO diversity antenna and described WiFi double antenna are carried out uncoupling.

Preferably, the Part II of described the second end accommodation space is provided with the ground strip that MIMO main antenna is corresponding with described MIMO main antenna, and the ground strip that described MIMO main antenna is corresponding carries out uncoupling for the WiFi antenna that the Part I of described MIMO main antenna and described first end accommodation space is arranged.

Preferably, the Part II of described first end accommodation space is provided with gps antenna.

Preferably, the ground strip corresponding with described MIMO diversity antenna is arranged on the corresponding part of described first end accommodation space and described gap, and the ground strip corresponding with described MIMO main antenna is arranged on the corresponding part of described the second end accommodation space and described gap.

Preferably, whole irradiation structures of described WiFi double antenna are independent of the irradiation structure of described MIMO diversity antenna.

Preferably, the Part I of the second end accommodation space of described housing is provided with the feed end match circuit of whole irradiation structures of described WiFi double antenna, the feed port of corresponding described WiFi double antenna and correspondence, is provided with the feed port of corresponding described WiFi double antenna and the feed end match circuit of correspondence in the Part I of described first end accommodation space.

Preferably, the Part II of described first end accommodation space is provided with the ground strip that MIMO diversity antenna is corresponding with described MIMO diversity antenna, and the ground strip that described MIMO diversity antenna is corresponding carries out uncoupling for the WiFi antenna that the Part II of described MIMO diversity antenna and described first end accommodation space is arranged.

Preferably, the Part II of described the second end accommodation space is provided with the ground strip that MIMO main antenna is corresponding with described MIMO main antenna, and the ground strip that described main antenna is corresponding carries out uncoupling for the WiFi antenna that the Part I of described MIMO main antenna and described the second end accommodation space is arranged.

Preferably, the Part II of described first end accommodation space is provided with gps antenna.

Preferably, the ground strip corresponding with described MIMO diversity antenna is arranged on the corresponding part of described first end accommodation space and described gap, and the ground strip corresponding with described MIMO main antenna is arranged on the corresponding part of described the second end accommodation space and described gap.

Preferably, whole irradiation structures of described WiFi double antenna are independent of the irradiation structure of described MIMO main antenna and described MIMO diversity antenna.

Preferably, the Part I of the first end accommodation space of described housing is provided with the feed end match circuit of the partial radiation structure of described WiFi double antenna, the feed port of corresponding described WiFi double antenna and correspondence.

Preferably, the Part III of the first end accommodation space of described housing is provided with the feed end match circuit of the partial radiation structure of described WiFi double antenna, the feed port of corresponding described WiFi double antenna and correspondence.

Preferably, the Part II of described first end accommodation space is provided with two ground strips that MIMO diversity antenna is corresponding with described MIMO diversity antenna, and two ground strips that described MIMO diversity antenna is corresponding are used for described MIMO diversity antenna and described WiFi double antenna are carried out uncoupling.

Preferably, the Part II of described the second end accommodation space is provided with the ground strip that MIMO main antenna is corresponding with described MIMO main antenna, for described MIMO main antenna and described WiFi antenna are carried out uncoupling.

Preferably, the ground strip corresponding with described MIMO diversity antenna is arranged on the corresponding part of described first end accommodation space and described gap, and the ground strip corresponding with described MIMO main antenna is arranged on the corresponding part of described the second end accommodation space and described gap.

Preferably, described WiFi double antenna and described MIMO diversity antenna irradiation structure altogether.

Preferably, described adjustment said two match circuit makes described WiFi double antenna resonance in different WiFi communication frequency ranges, including:

The match circuit that described controller regulates described feed port corresponding makes described WiFi double antenna go out different WiFi communication frequency ranges based on the irradiation structure resonance of described WiFi double antenna self, or, regulate the match circuit that described feed port is corresponding, make described WiFi double antenna resonance go out different WiFi communication frequency ranges in irradiation structure and the described case resonant based on described WiFi double antenna self.

The embodiment of the present invention at least has the advantages that

Embodiments provide WiFi double antenna in the location layout's design within all-metal mobile terminal, save the space that antenna is set inside all-metal mobile terminal;Support WiFi double antenna dual band communication;All-metal, ultra-thin, structural strength is big, and heat conductivility is superior, and metal sense of touch is good;Due to antenna arrangement design, to take the end accommodation space of housing little, therefore, it is possible to realize the height screen accounting of mobile terminal, visual experience is good;The simple in construction of antenna, easy to process, it is simple to processing and production.

Accompanying drawing explanation

Fig. 1 is the hardware architecture diagram of the optional mobile terminal realizing each embodiment of the present invention;

Fig. 2 is the hardware architecture diagram of the optional mobile terminal realizing each embodiment of the present invention;

Fig. 3 is the wireless communication system schematic diagram of mobile terminal as depicted in figs. 1 and 2;

Fig. 4 is the side-looking structural representation of the optional mobile terminal realizing each embodiment of the present invention;

Fig. 5 is the plan structure schematic diagram of the optional mobile terminal realizing each embodiment of the present invention;

Fig. 6 is the plan structure schematic diagram of the optional mobile terminal realizing each embodiment of the present invention;

Fig. 7 is the plan structure schematic diagram of the optional mobile terminal realizing each embodiment of the present invention;

Fig. 8 is the schematic flow sheet of the WiFi communication for mobile terminal realizing each embodiment of the present invention.

Detailed description of the invention

Should be appreciated that specific embodiment described herein is only in order to explain technical scheme, the protection domain being not intended to limit the present invention.

The mobile terminal realizing each embodiment of the present invention is described referring now to accompanying drawing.In follow-up description, use the suffix being used for representing such as " module ", " parts " or " unit " of element only for being conducive to the explanation of the present invention, itself do not have specific meaning.Therefore, " module " and " parts " can mixedly use.

Mobile terminal can be implemented in a variety of manners.Such as, the terminal described in the present invention can include the mobile terminal of such as mobile phone, smart phone, notebook computer, digit broadcasting receiver, PDA (personal digital assistant), PAD (panel computer), PMP (portable media player), guider etc. and the fixed terminal of such as numeral TV, desk computer etc..Hereinafter it is assumed that terminal is mobile terminal.However, it will be understood by those skilled in the art that, except being used in particular for the element of mobile purpose, structure according to the embodiment of the present invention can also apply to the terminal of fixed type.

Fig. 1 is an optional hardware configuration signal of the mobile terminal 100 realizing each embodiment of the present invention, as it is shown in figure 1, mobile terminal 100 can include wireless communication unit 110, interface unit 170, controller 180 and power subsystem 190.Will be discussed in more detail below the element of mobile terminal 100.

Wireless communication unit 110 generally includes multiple assembly, and it allows the radio communication between mobile terminal 100 and wireless communication system or network.Such as, wireless communication unit can include mobile communication module 112, wireless Internet module 113 and positional information module 115.

Mobile communication module 112 sends radio signals at least one in base station (such as, access point, node B etc.), exterior terminal and server and/or receives from it radio signal.Such radio signal can include voice call signal, video calling signal or the various types of data sending according to text and/or Multimedia Message and/or receiving.

Wireless Internet module 113 supports the Wi-Fi (Wireless Internet Access) of mobile terminal 100.This module can internally or externally be couple to mobile terminal 100.Wi-Fi (Wireless Internet Access) technology involved by this module can include WLAN (WLAN) (Wi-Fi), Wibro (WiMAX), Wimax (worldwide interoperability for microwave access), HSDPA (high-speed downlink packet access) etc..

Positional information module 115 is the module of positional information for checking or obtain mobile terminal 100.The typical case of positional information module 115 is GPS (global positioning system) module 115.According to current technology, GPS module 115 calculates from the range information of three or more satellites and correct time information and the Information application triangulation for calculating, thus according to longitude, latitude with highly accurately calculate three-dimensional current location information.Currently, the method for calculating position and temporal information uses three satellites and the error by the position using an other satellite correction to calculate and temporal information.Additionally, GPS module 115 can calculate velocity information by Continuous plus current location information in real time.

Interface unit 170 is used as at least one external device (ED) and is connected, with mobile terminal 100, the interface that can pass through.Such as, external device (ED) can include wired or wireless head-band earphone port, external power source (or battery charger) port, wired or wireless FPDP, memory card port (typical case is general-purpose serial bus USB interface), for connecting the port of the device with identification module, audio frequency input/output (I/O) port, video i/o port, ear port etc..Identification module can be that storage is for verifying that user uses the various information of mobile terminal 100 and can include subscriber identification module (UIM), client identification module (SIM), Universal Subscriber identification module (USIM) etc..It addition, the device (hereinafter referred to " identification device ") with identification module can take the form of smart card, therefore, identify that device can be connected with mobile terminal 100 via port or other connecting device.Interface unit 170 may be used for receiving from the input (such as, data message, electric power etc.) of external device (ED) and the one or more elements being transferred in mobile terminal 100 by the input received or may be used for transmission data between mobile terminal 100 and external device (ED).

Additionally, when mobile terminal 100 is connected with external base, interface unit 170 can serve as and allows to provide the path of mobile terminal 100 or can serve as to allow to be transferred to the path of mobile terminal 100 from the various command signals of base input by it from base electric power by it.The signal identifying whether mobile terminal 100 is accurately fitted within base is may serve as from the various command signals of base input or electric power.Output unit 150 is configured to provide output signal (such as, audio signal, video signal, alarm signal, vibration signal etc.) with vision, audio frequency and/or tactile manner.Output unit 150 can include display unit 151, dio Output Modules 152, alarm unit 153 etc..

Controller 180 generally controls the overall operation of mobile terminal 100.Such as, controller 180 performs the control relevant to voice call, data communication, video calling etc. and process.

Power subsystem 190 receives external power or internal power under the control of controller 180 and provides the suitable electric power operated needed for each element and assembly.

An optional hardware configuration based on the mobile terminal 100 realizing each embodiment of the present invention shown in Fig. 1, actual implement in can also as needed in the basis of the hardware configuration shown in Fig. 1 arranges functional module further, to realize the extension to mobile terminal 100 function.

Based on Fig. 1, Fig. 2 is another optional hardware configuration signal of the mobile terminal 100 realizing each embodiment of the present invention, as in figure 2 it is shown, mobile terminal 100 can include wireless communication unit 110, user input unit 130, output unit 150, memorizer 160, interface unit 170, controller 180 and power subsystem 190 etc..Fig. 2 illustrates the mobile terminal 100 with various assembly, it should be understood that be not required for implementing all assemblies illustrated.Can alternatively implement more or less of assembly.Will be discussed in more detail below the element of mobile terminal 100.

Wireless communication unit 110 generally includes one or more assembly, and it allows the radio communication between mobile terminal 100 and wireless communication system or network.Such as, wireless communication unit 110 can include at least one in broadcast reception module 111, mobile communication module 112, wireless Internet module 113 and positional information module 115.

Mobile communication module 112, wireless Internet module 113, positional information module 115 illustrate referring to the record of previous embodiment one, repeat no more here.

User input unit 130 can generate key input data to control the various operations of mobile terminal 100 according to the order of user's input.User input unit 130 allows user to input various types of information, and can include keyboard, metal dome, touch pad (such as, detection due to touched and cause resistance, pressure, electric capacity etc. the sensitive component of change), roller, rocking bar etc..Especially, when touch pad is superimposed upon on display unit 151 as a layer, it is possible to form touch screen.

Display unit 151 may be displayed on the information processed in mobile terminal 100.Such as, when mobile terminal 100 is in telephone calling model, display unit 151 can show the user interface (UI) relevant with call or other communicate (such as, text messaging, multimedia file download etc.) or graphic user interface (GUI).When being in video calling pattern or image capture mode when mobile terminal 100, display unit 151 can show the image of image and/or the reception caught, UI or GUI illustrating video or image and correlation function etc..

Meanwhile, when display unit 151 and touch pad as a layer superposed on one another to form touch screen time, display unit 151 can serve as input equipment and output device.Display unit 151 can include at least one in liquid crystal display (LCD), thin film transistor (TFT) LCD (TFT-LCD), Organic Light Emitting Diode (OLED) display, flexible display, three-dimensional (3D) display etc..Some in these display may be constructed such that transparence is to allow user to watch from outside, and this is properly termed as transparent display, and typical transparent display can be such as TOLED (transparent organic light emitting diode) display etc..According to the specific embodiment wanted, mobile terminal 100 can include two or more display units (or other display device), such as, mobile terminal 100 can include outernal display unit (not shown) and inner display unit (not shown).Touch screen can be used for detecting touch input pressure and touch input position and touch input area.

Dio Output Modules 152 can mobile terminal 100 be in call signal receive under the isotype such as pattern, call mode, logging mode, speech recognition mode, broadcast reception mode time, that wireless communication unit 110 is received or storage in memorizer 160 voice data transducing audio signal and be output as sound.And, dio Output Modules 152 can provide the audio frequency output (such as, call signal receive sound, message sink sound etc.) relevant to the specific function of mobile terminal 100 execution.Dio Output Modules 152 can include speaker, buzzer etc..

Memorizer 160 can store the process performed by controller 180 and control software program etc. of operation, or can temporarily store and export the data (such as, telephone directory, message, still image, video etc.) that maybe will export.And, memorizer 160 can store the vibration about the various modes exported when touching and being applied to touch screen and the data of audio signal.

Memorizer 160 can include the storage medium of at least one type, described storage medium includes flash memory, hard disk, multimedia card, card-type memorizer (such as, SD or DX memorizer etc.), random access storage device (RAM), static random-access memory (SRAM), read only memory (ROM), Electrically Erasable Read Only Memory (EEPROM), programmable read only memory (PROM), magnetic storage, disk, CD etc..And, mobile terminal 100 can be connected the network storage device cooperation of the storage function performing memorizer 160 with by network.

Interface unit 170 is used as at least one external device (ED) and is connected, with mobile terminal 100, the interface that can pass through.Such as, external device (ED) can include wired or wireless head-band earphone port, external power source (or battery charger) port, wired or wireless FPDP, memory card port, for connecting the port of the device with identification module, audio frequency input/output (I/O) port, video i/o port, ear port etc..Identification module can be that storage is for verifying that user uses the various information of mobile terminal 100 and can include subscriber identification module (UIM), client identification module (SIM), Universal Subscriber identification module (USIM) etc..It addition, the device (hereinafter referred to " identification device ") with identification module can take the form of smart card, therefore, identify that device can be connected with mobile terminal 100 via port or other connecting device.Interface unit 170 may be used for receiving from the input (such as, data message, electric power etc.) of external device (ED) and the one or more elements being transferred in mobile terminal 100 by the input received or may be used for transmission data between mobile terminal 100 and external device (ED).

Additionally, when mobile terminal 100 is connected with external base, interface unit 170 can serve as and allows to provide the path of mobile terminal 100 or can serve as to allow to be transferred to the path of mobile terminal 100 from the various command signals of base input by it from base electric power by it.The signal identifying whether mobile terminal 100 is accurately fitted within base is may serve as from the various command signals of base input or electric power.Output unit 150 is configured to provide output signal (such as, audio signal, video signal, alarm signal, vibration signal etc.) with vision, audio frequency and/or tactile manner.Output unit 150 can include display unit 151, dio Output Modules 152, alarm unit 153 etc..

Controller 180 generally controls the overall operation of mobile terminal 100.Such as, controller 180 performs the control relevant to voice call, data communication, video calling etc. and process.It addition, controller 180 can include for reproducing or the multi-media module 1810 of multimedia playback data, multi-media module 1810 can construct in controller 180, or it is so structured that separates with controller 180.Controller 180 can perform pattern recognition process, so that the handwriting input performed on the touchscreen or picture drafting input are identified as character or image.

Power subsystem 190 receives external power or internal power under the control of controller 180 and provides the suitable electric power operated needed for each element and assembly.

Various embodiment described herein can to use such as computer software, hardware or its any combination of computer-readable medium to implement.Hardware is implemented, embodiment described herein can pass through to use application-specific IC (ASIC), digital signal processor (DSP), digital signal processing device (DSPD), programmable logic device (PLD), field programmable gate array (FPGA), processor, controller, microcontroller, microprocessor, at least one that is designed to perform in the electronic unit of function described herein to implement, in some cases, such embodiment can be implemented in controller 180.Implementing for software, the embodiment of such as process or function can be implemented with allowing the independent software module performing at least one function or operation.Software code can be implemented by the software application (or program) write with any suitable programming language, and software code can be stored in memorizer 160 and be performed by controller 180.

So far, mobile terminal 100 is described according to its function.Below, for the sake of brevity, by the slide type mobile terminal 100 in the various types of mobile terminals 100 describing such as folded form, board-type, oscillating-type, slide type mobile terminal 100 etc. exemplarily.Therefore, the present invention can be applied to any kind of mobile terminal 100, and is not limited to slide type mobile terminal 100.

Mobile terminal 100 as shown in Figures 1 and 2 may be constructed such that utilization operates via such as wired and wireless communication system and the satellite-based communication system of frame or packet transmission data.

The communication system being wherein operable to according to the mobile terminal 100 of the present invention is described referring now to Fig. 3.

Such communication system can use different air interfaces and/or physical layer.Such as, the air interface used by communication system includes such as frequency division multiple access (FDMA), time division multiple acess (TDMA), CDMA (CDMA) and UMTS (UMTS) (especially, Long Term Evolution (LTE)), global system for mobile communications (GSM) etc..As non-limiting example, as explained below relates to cdma communication system, but such instruction is equally applicable to other type of system.

With reference to Fig. 3, cdma wireless communication system can include multiple mobile terminal 100, multiple base station (BS) 270, base station controller (BSC) 275 and mobile switching centre (MSC) 280.MSC280 is configured to form interface with Public Switched Telephony Network (PSTN) 290.MSC280 is also structured to and the BSC275 formation interface that can be couple to base station 270 via back haul link.Back haul link can construct according to any one in some interfaces that oneself knows, described interface includes such as E1/T1, ATM, IP, PPP, frame relay, HDSL, ADSL or xDSL.It will be appreciated that system as shown in Figure 3 can include multiple BSC2750.

Each BS270 can service one or more subregion (or region), by each subregion of multidirectional antenna or the antenna covering pointing to specific direction radially away from BS270.Or, each subregion can be covered by two or more antennas for diversity reception.Each BS270 may be constructed such that support multiple frequencies distribution, and the distribution of each frequency has specific frequency spectrum (such as, 1.25MHz, 5MHz etc.).

Intersecting that subregion and frequency are distributed can be referred to as CDMA Channel.BS270 can also be referred to as base station transceiver subsystem (BTS) or other equivalent terms.In this case, term " base station " may be used for broadly representing single BSC275 and at least one BS270.Base station can also be referred to as " cellular station ".Or, each subregion of specific BS270 can be referred to as multiple cellular station.

In figure 3, depict multiple satellite 300, it is understood that be, it is possible to use any number of satellite obtains useful location information.GPS module 115 as shown in Figure 1 is generally configured to coordinate the location information wanted with acquisition with satellite 300.Substitute GPS tracking technique or outside GPS tracking technique, it is possible to use other technology of the position of mobile terminal 100 can be followed the tracks of.It addition, at least one gps satellite 300 can optionally or additionally process satellite dmb transmission.

As a typical operation of wireless communication system, BS270 receives the reverse link signal from various mobile terminals 100.Mobile terminal 100 generally participates in call, information receiving and transmitting communicates with other type of.Each reverse link signal that certain base station 270 receives is processed in specific BS270.The data obtained are forwarded to relevant BSC275.BSC provides call resource distribution and the mobile management function of the coordination of soft switching process included between BS270.The data received also are routed to MSC280 by BSC275, and it provides the extra route service for forming interface with PSTN290.Similarly, PSTN290 and MSC280 forms interface, and MSC and BSC275 forms interface, and BSC275 correspondingly controls BS270 so that forward link signals to be sent to mobile terminal 100.

Based on above-mentioned mobile terminal hardware configuration and communication system, it is proposed to each embodiment of the present invention.

Embodiment one

The embodiment of the present invention one proposes a kind of employing and at least has the mobile terminal 100 of the hardware configuration shown in Fig. 1, mobile terminal 100 adopts the housing of metal material (as adopted single metal material such as aluminum, or adopt metal alloy compositions such as magnalium), the housing of mobile terminal 100 includes three parts: top shell, central enclosure and bottom shell, in actual enforcement, top shell, central enclosure and bottom shell are respectively provided with rear shell portion and midframe part, for being arranged on the front panel of center, screen formation accommodation space.

Accommodation space corresponding with top shell in the overall accommodation space of housing and the accommodation space corresponding with bottom shell are called end accommodation space by the present embodiment, part accommodation space adjacent with top shell in wherein corresponding with top shell accommodation space and central enclosure is properly termed as again top accommodation space, and part accommodation space adjacent with bottom shell in the accommodation space corresponding with bottom shell and central enclosure is properly termed as again bottom accommodation space.

Referring to Fig. 4, gap 4-1 is begun with between top shell and central enclosure, gap 4-2 is all offered between central enclosure and bottom shell, gap can adopt nonmetallic materials (such as filling plastic) so that the antenna space radiation wireless signal (namely electromagnetic wave of alternation) from enclosure interior to hull outside that arranges in the accommodation space of housing, and in inductive spacing the wireless signal of transmission and on antenna, induce the high frequency electric of alternation.

First accommodation space (top accommodation space and any one in the accommodation space of bottom) is provided with two feed port match circuits one to one of WiFi double antenna, the feed port of corresponding WiFi double antenna and corresponding WiFi double antenna (namely two WiFi antennas, referred to as WiFi double antenna).

In order to support polytype communication, the housing of mobile terminal is located arrange WiFi double antenna and (namely there is the antenna of two irradiation structures, it is respectively used to resonance and goes out two communications bands of WiFi: 2.4GHz frequency range and 5GHz frequency range), mimo antenna (including MIMO main antenna and MIMO diversity antenna) and gps antenna can also be set, below the design of the different layouts of the antenna of enclosure interior is illustrated.

Set-up mode 1)

Referring to Fig. 5, the first end accommodation space of housing is (for top accommodation space in Fig. 5, actual implement) Part I 9 (for right part in Fig. 5) gps antenna and WiFi antenna are set, Part I 9 is provided with whole irradiation structures of WiFi double antenna, WiFi double antenna includes two antennas and constitutes, each antenna has independent irradiation structure, Fig. 5 only illustrates gps antenna, whole irradiation structures of WiFi double antenna, independent of the irradiation structure of MIMO diversity antenna, are namely respectively adopted independent irradiation structure with MIMO diversity antenna.

First end accommodation space is additionally provided with the feed port 9 of corresponding WiFi double antenna and the feed end match circuit (the broken box mark to be connected) of correspondence with feed port 9.

The Part II (for left part in Fig. 5) of first end accommodation space is provided with MIMO diversity antenna, and ground strip 7-1 is arranged on first end accommodation space and the corresponding part of gap 4-1 (and width and gap 4-1 consistent);, ground strip 7-1, for MIMO diversity antenna and WiFi antenna are carried out uncoupling, plays the effect of different frequency range signal isolation.

The Part I (for right part in Fig. 5) of the second end accommodation space of housing is provided with the feed port 10 of corresponding WiFi double antenna and the feed end match circuit (the broken box mark to be connected with feed port 10) of correspondence.

The Part II (for left part in Fig. 5) of the second end accommodation space is provided with the MIMO main antenna ground strip 7-2 corresponding with MIMO main antenna and is arranged on the second end accommodation space and the corresponding part of gap 4-2 (and width and gap 4-2 consistent);Ground strip 7-2, for MIMO main antenna and WiFi antenna are carried out uncoupling, plays the effect of different frequency range signal isolation.

The middle position of the second end accommodation space is additionally provided with USB port 5, and USB port 5 can also be arranged on the either side (such as left part or right part) of the second end accommodation space.

In an arrangement shown in figure 5, in WiFi double antenna, each antenna has the irradiation structure independent of mimo antenna, not with MIMO diversity antenna irradiation structure altogether.

It should be noted that, in Fig. 5 for first end accommodation space be top accommodation space, the second end is for bottom accommodation space, in actual enforcement, first end accommodation space can also be bottom accommodation space, corresponding second accommodation space is top accommodation space, say, that mimo antenna, gps antenna and WiFi antenna are can be symmetrically arranged in the position that arranges of housing.

Set-up mode 2)

Fig. 6 illustrates the set-up mode being different from Fig. 5, and the Part I (for right part in Fig. 6) of the second end accommodation space (for bottom accommodation space in Fig. 6) of housing is provided with the feed end match circuit (identifying with the broken box being connected with feed port 9) of the partial radiation structure 13-1 of gps antenna and WiFi double antenna (be namely provided with in WiFi double antenna the irradiation structure of an antenna), the feed port 9 of corresponding WiFi double antenna and correspondence.

The Part II (for left part in Fig. 6) of first end accommodation space (for top accommodation space in Fig. 6) is provided with ground strip 7-1 corresponding to MIMO diversity antenna ground strip 7-1, the MIMO diversity antenna corresponding with MIMO diversity antenna and is arranged on first end accommodation space and the corresponding part of gap 4-1 (and width and gap 4-1 consistent);Ground strip 7-1 corresponding to MIMO diversity antenna is for carrying out uncoupling to the partial radiation of the WiFi antenna that the Part II of MIMO diversity antenna and one end accommodation space is arranged.

The Part I (for right part in Fig. 6) of the second end accommodation space (for bottom accommodation space in Fig. 6) is provided with the partial radiation structure 13-2 (namely the irradiation structure of another WiFi antenna in WiFi double antenna) of WiFi double antenna.

The Part II (for left part in Fig. 6) of the second end accommodation space (for bottom accommodation space in Fig. 6) is provided with the ground strip 7-2 that MIMO main antenna is corresponding with MIMO main antenna, the ground strip 7-2 corresponding with MIMO main antenna and is arranged on the corresponding part (and width and gap 4-2 consistent) of the second end accommodation space and gap 4-2;The ground strip 7-2 that MIMO main antenna is corresponding carries out uncoupling for the WiFi antenna that the Part I of MIMO main antenna and the second end accommodation space is arranged.

The Part II of first end accommodation space is provided with gps antenna, and the partial radiation structure of the WiFi double antenna that the Part II of gps antenna and first end accommodation space is arranged uses one accommodation space.

The middle position of the second end accommodation space is additionally provided with USB port 5, and USB port 5 can also be arranged on the either side (such as left part or right part) of the second end accommodation space.

In the structure shown in Fig. 6, in WiFi double antenna, each antenna has independent irradiation structure, not with MIMO diversity antenna or mimo antenna irradiation structure altogether, say, that the irradiation structure of WiFi antenna is independent of mimo antenna.

It should be noted that, in Fig. 6 for first end accommodation space be top accommodation space, the second end is for bottom accommodation space, in actual enforcement, first end accommodation space can also be bottom accommodation space, corresponding second accommodation space is top accommodation space, say, that mimo antenna, gps antenna and WiFi antenna are can be symmetrically arranged in the position that arranges of housing.

Set-up mode 3)

Referring to Fig. 7, the Part I (for right part in Fig. 7) of the first end accommodation space (for the top accommodation space of housing in Fig. 7) of housing is provided with the feed port 12 of an antenna in the partial radiation structure of gps antenna and WiFi double antenna (be namely provided with in WiFi double antenna the irradiation structure of an antenna), corresponding WiFi double antenna and the feed end match circuit of feed port 12 correspondence.

The Part III (left part for top accommodation space) of the first end accommodation space of housing is provided with the feed port 9 of another antenna in the partial radiation structure (be namely provided with in WiFi double antenna the irradiation structure of another antenna) of WiFi double antenna, corresponding WiFi double antenna and the feed end match circuit of feed port 9 correspondence.

The Part II (mid portion for top accommodation space) of first end accommodation space is provided with MIMO diversity antenna, two ground strips corresponding with MIMO diversity antenna namely ground strip 10 and ground strip 11, the ground strip 10 corresponding with MIMO diversity antenna and ground strip 11 are arranged on the corresponding part of first end accommodation space and gap 4-1 and width and gap 4-1 is consistent, the ground strip 10 that MIMO diversity antenna is corresponding carries out uncoupling for the WiFi antenna that MIMO diversity antenna and first end accommodation space Part III are arranged, ground strip 11 carries out uncoupling for the WiFi antenna that MIMO diversity antenna and first end accommodation space Part I are arranged.

The Part II (for left part in Fig. 7) of the second end accommodation space (for the bottom accommodation space of housing in Fig. 7) is provided with the MIMO main antenna ground strip corresponding with MIMO main antenna 7, the ground strip 7 corresponding with MIMO main antenna is arranged on the corresponding part of the second end accommodation space and gap 4-2 and width is consistent with gap 4-2, and ground strip 7 is used for the WiFi double antenna of MIMO main antenna and the setting of first end accommodation space is carried out uncoupling.

It should be noted that, in structure shown in Fig. 7, WiFi double antenna and MIMO diversity antenna can share same irradiation structure, so can effectively save the accommodation space taken, and can effectively realize the uncoupling between MIMO diversity antenna and WiFi double antenna by arranging two ground strips 10/11 at the first accommodation space.

In the figure 7, if GPS exists independent irradiation structure, WiFi double antenna can be total to irradiation structure with diversity antenna and utilize housing to radiate;If gps antenna utilizes housing, radiation (is namely absent from independent irradiation structure, can arranging independent irradiation structure with gps antenna at the part WiFi double antenna (namely a WiFi antenna) of the same part setting of top accommodation space, another part WiFi double antenna arranged at bottom accommodation space can with MIMO main antenna irradiation structure altogether.

In actual enforcement, on the printed circuit board (PCB) (PCB is positioned at the accommodation space of central enclosure) that controller 180 (including mobile communication module 112, positional information module 113 and wireless Internet module 115) in hardware configuration as shown in Figure 1 and wireless communication unit 110 are arranged in.Corresponding with the hardware configuration of the wireless communication unit 110 shown in Fig. 1, the accommodation space of housing is provided with full frequency band multiple-input, multiple-output (MIMO, Multiple-InputMultiple-Output) antenna, gps antenna and WiFi double antenna;Wherein mimo antenna carries out MIMO communication for the mobile communication module 112 in wireless communication unit 110, gps antenna receives gps signal for positional information module 113 and mobile terminal 100 is positioned, and WiFi double antenna carries out the radio communication of WiFi two-band (2.4GHz and 5GHz) for wireless Internet module 115.

Controller 180 controls each module in wireless communication unit 110 and uses corresponding antenna to carry out the communication of different frequency range, and the realization below dissimilar antenna of control communicated illustrates.

1) WiFi communication

Controller 180 controls the feed port of WiFi double antenna and is in feed condition and regulates the feed end match circuit of feed port, control the feed end match circuit of the feed port 9 of WiFi double antenna in Figure 5, control the feed end match circuit of the feed port 9 of WiFi double antenna in figure 6, control the feed end match circuit of the feed port 10/12 of WiFi double antenna in the figure 7, the match circuit (namely feed end match circuit) regulating feed port corresponding makes WiFi double antenna resonance in the WiFi communication frequency range (such as 2.4GHz frequency range or 5GHz communications band) of demand, and control the wireless Internet module 113 in wireless communication unit 110 and carry out the communication of different frequency range via WiFi double antenna.

2) gps signal is received

Gps antenna goes out the GPS frequency range of demand based on the irradiation structure resonance of gps antenna self, controller 180 the positional information module 115 controlled in wireless communication unit 110 is received gps signal via gps antenna.

3) mobile communication

During actual enforcement, the accommodation space of housing also sets up the match circuit (namely feed end match circuit) of the corresponding feed port of mimo antenna, feed port and correspondence, the feed end match circuit regulating mimo antenna makes mimo antenna resonance at the communications band of demand, controls mobile communication module 112 and carries out the mobile communication of different frequency range (such as low-frequency range 696 960MHz) via mimo antenna.

Present embodiments provide mimo antenna, gps antenna and WiFi double antenna in the location layout's design within all-metal mobile terminal, save the space that antenna is set inside all-metal mobile terminal;Support WiFi double antenna dual band communication;All-metal, ultra-thin, structural strength is big, and heat conductivility is superior, and metal sense of touch is good;Due to antenna arrangement design, to take the end accommodation space of housing little, therefore, it is possible to realize the height screen accounting of mobile terminal, visual experience is good;The simple in construction of antenna, easy to process, it is simple to processing and production.

Embodiment two

Fig. 5 to Fig. 7 illustrates the internal structure schematic diagram of the mobile terminal 100 adopting the hardware configuration shown in Fig. 1, structure within mobile terminal 100 being illustrated for mobile terminal 100 for mobile phone in Fig. 5 to Fig. 7, those skilled in the art the structure according to Fig. 5 to Fig. 7 can be implemented on all-metal other mobile terminals 100 such as panel computer etc..

Fig. 4 is the schematic side view of the internal structure of mobile terminal 100, Fig. 5 to Fig. 7 is the schematic top plan view of the different internal structure of mobile terminal 100, in Fig. 5 to Fig. 7, full metal jacket is set as realizing mobile terminal 100 and realizes a lightening example, mobile terminal 100 physical dimension is 150mm × 70mm × 5mm, length range is limited to 100mm 160mm, and width range is limited to 50mm 85mm, within altitude range is limited to 10mm.Wherein, in mobile terminal 100, the size (length x width x thickness) of printed circuit board (PCB) (PCB) 1 is 140mm × 70mm × 1mm, PCB1 size can be sized according to being actually needed, within PCB1 is limited to 15mm from mobile terminal 100 distance from bottom, within PCB1 is limited to 10mm from mobile terminal 100 distance from top, within back cover 2 thickness range is limited to 2mm, within center 3 altitude range is limited to 10mm, within thickness range is limited to 2mm, within the top of the mobile terminal 100 gap 4-1 offered corresponding to bottom and gap 4-2 width range are limited to 3mm, within the gap 4-1 at top is limited to 20mm from mobile terminal 100 distance from top scope, within the gap 4-2 of bottom is limited to 20mm from mobile terminal 100 distance from bottom scope, the gap 4-1 at top and the gap 4-2 of bottom can be that symmetry is offered, can also be asymmetric offering, offer position to set with real needs.

USB port 5 is arranged on the second end accommodation space of mobile terminal 100, within distance range bottom USB port 5 and mobile terminal 100 is limited to 2mm, USB port 5 can be centrally located at the second end accommodation space of housing, it is also possible to any side of the second end accommodation space at housing is arranged.

In Figure 5, the left part of the second end accommodation space that design space 6 is housing that MIMO main antenna is reserved, the ground strip 7-2 of MIMO main antenna is arranged on the subregion corresponding with gap 4-2 reserved on back cover 2, width range keeps consistent with gap 4-2, length range is limited to more than 2mm, within the left of distance center, scope is limited to 60mm.The left part of the first end accommodation space that design space 8 is housing that MIMO diversity antenna is reserved, with MIMO main antenna positional symmetry is set.

Gps antenna is arranged on the right part of the first end accommodation space of housing, the design space identical with WiFi double antenna use, WiFi double antenna can go out required frequency range based on self independent irradiation structure resonance, within now WiFi double antenna needs the design space length range taken to be limited to 30mm, within width range is limited to 15mm.

The feed port 9 of WiFi double antenna is within the right side of mobile terminal, distance range is limited to 40mm, and the match circuit of feed port identifies with the broken box being connected with feed port 9;At this it should be noted that mimo antenna, gps antenna, WiFi double antenna can symmetrically be placed on the opposite side of mobile terminal, it is also possible to be arranged on the other end of mobile terminal symmetrical above and belowly.

Referring to Fig. 6, right part in the right part of top accommodation space of housing, bottom accommodation space is respectively provided with a WiFi antenna and forms WiFi double antenna, the irradiation structure of WiFi double antenna use self carrys out resonance and goes out the resonance band of demand, not with mimo antenna irradiation structure altogether.

Referring to Fig. 7, the WiFi double antenna scattering device both sides, top in all-metal terminal and and MIMO diversity antenna share same irradiation structure, wherein the WiFi antenna on right side and gps antenna share same design space.MIMO diversity antenna only covers high-frequency band 1710-2690MHz, MIMO diversity antenna is correspondingly arranged on two ground strips 10 and 11 on back cover 2, ground strip 10 is within the left of mobile terminal, distance range is limited to 30mm, and ground strip 11 is within the right side of mobile terminal, distance range is limited to 40mm.

Fig. 5 to Fig. 7 illustrates mimo antenna, the location layout of gps antenna and design space requirement, it is achieved that the double frequency bandwidth of WiFi double antenna 2.4G and 5G.

1) when adopting the structure shown in Fig. 5 or Fig. 6, when feed port 9,10 is in feed condition, regulating the feed end match circuit of feed port 9,10 position of regulated ground sheet 7 respectively, the double frequency-band that can realize WiFi double antenna 2.4GHz, 5GHz covers.

2) when adopting the structure shown in Fig. 7, when feed port 9,10 is in feed condition, regulating the feed end match circuit of feed port 10,11 respectively, the double frequency-band that can realize WiFi double antenna 2.4GHz, 5GHz covers.

Embodiment three

The present embodiment provides a kind of for having the hardware configuration shown in Fig. 1 or Fig. 2, and has the communication processing method of the mobile terminal 100 of the full metal jacket of the shown internal structure of either figure in Fig. 4 and Fig. 5 to Fig. 7,

Referring to Fig. 8, WiFi communication processing method comprises the following steps:

Step 101, controller 180 controls the feed port of WiFi double antenna and is in feed condition.

Feed port is that wireless Internet module passes through the transfer wire junction point to WiFi double antenna feed-in high frequency alternating current, controller 180 control the feed port of WiFi double antenna be in feed condition refer to wireless Internet module based on this feed port to WiFi double antenna feed in energy analysis, or the high frequency alternating current receiving the wireless signal of WiFi inductive spacing transmission by this feed port and generating.

Step 102, controller 180 regulates match circuit corresponding to feed port makes WiFi double antenna resonance in different WiFi communication frequency ranges.

When the frequency range of demand communication is 2.4GHz frequency range, controller 180 regulates match circuit corresponding to feed port makes WiFi double antenna resonance in 2.4GHz frequency range;When the frequency range of demand communication is 5GHz frequency range, controller 180 regulates match circuit corresponding to feed port makes WiFi double antenna resonance in 5GHz frequency range.

Step 103, controller 180 controls the wireless Internet module in wireless communication unit and carries out the communication of different frequency range via WiFi double antenna.

In sum, the embodiment of the present invention at least has the advantages that

1) provide mimo antenna, gps antenna and WiFi double antenna to design in the location layout within all-metal mobile terminal, save the space that antenna is set inside all-metal mobile terminal;

2) WiFi double antenna dual band communication is supported;

3) all-metal, ultra-thin, structural strength is big, and heat conductivility is superior, and metal sense of touch is good;

4) being capable of the height screen accounting of mobile terminal, visual experience is good;

5) antenna structure is simple, easy to process, it is simple to processing and production.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.All within the spirit and principles in the present invention; any amendment of being made, equivalent replacement, improvement etc.; should be included in one of ordinary skill in the art will appreciate that within protection scope of the present invention: all or part of step realizing said method embodiment can be completed by the hardware that programmed instruction is relevant; aforesaid program can be stored in a computer read/write memory medium; this program upon execution, performs to include the step of said method embodiment;And aforesaid storage medium includes: movable storage device, random access memory (RAM, RandomAccessMemory), the various media that can store program code such as read only memory (ROM, Read-OnlyMemory), magnetic disc or CD.

Or, if the above-mentioned integrated unit of the present invention realizes using the form of software function module and as independent production marketing or when using, it is also possible to be stored in a computer read/write memory medium.Based on such understanding, the part that correlation technique is contributed by the technical scheme of the embodiment of the present invention substantially in other words can embody with the form of software product, this computer software product is stored in a storage medium, including some instructions with so that a computer equipment (can be personal computer, server or the network equipment etc.) performs all or part of of method described in each embodiment of the present invention.And aforesaid storage medium includes: the various media that can store program code such as movable storage device, RAM, ROM, magnetic disc or CDs.

The above; being only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, any those familiar with the art is in the technical scope that the invention discloses; change can be readily occurred in or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with described scope of the claims.

Claims (10)

1. a mobile terminal, it is characterised in that described mobile terminal includes:
Housing, described housing adopts metal material, including top shell, central enclosure and bottom shell, offers gap between described top shell and described central enclosure and between described central enclosure and described bottom shell;
The accommodation space of described housing is provided with Wireless Fidelity WiFi double antenna, corresponding described WiFi double antenna two feed port and with said two feed port match circuit one to one;
The accommodation space of described housing is additionally provided with controller and wireless communication unit;
Described controller, said two feed port for controlling described WiFi double antenna is in feed condition, regulating said two match circuit makes described WiFi double antenna resonance in different WiFi communication frequency ranges, and controls described wireless communication unit and carry out the communication of different frequency range via described WiFi double antenna.
2. mobile terminal according to claim 1, it is characterised in that
The Part I of the first end accommodation space of described housing is provided with the feed end match circuit of whole irradiation structures of described WiFi double antenna, the feed port of corresponding described WiFi double antenna and correspondence, is provided with the feed port of corresponding described WiFi double antenna and the feed end match circuit of correspondence in the Part I of the second end accommodation space of described housing;
The Part II of described first end accommodation space is provided with the ground strip that multiple-input, multiple-output MIMO diversity antenna is corresponding with described MIMO diversity antenna, and the ground strip that described MIMO diversity antenna is corresponding is used for described MIMO diversity antenna and described WiFi double antenna are carried out uncoupling;
The Part II of described the second end accommodation space is provided with the ground strip that MIMO main antenna is corresponding with described MIMO main antenna, and the ground strip that described MIMO main antenna is corresponding carries out uncoupling for the WiFi antenna that the Part I of described MIMO main antenna and described first end accommodation space is arranged;
The Part II of described first end accommodation space is provided with GPS gps antenna.
3. mobile terminal according to claim 1, it is characterised in that
The Part I of the second end accommodation space of described housing is provided with the feed end match circuit of whole irradiation structures of described WiFi double antenna, the feed port of corresponding described WiFi double antenna and correspondence, is provided with the feed port of corresponding described WiFi double antenna and the feed end match circuit of correspondence in the Part I of described first end accommodation space;
The Part II of described first end accommodation space is provided with the ground strip that MIMO diversity antenna is corresponding with described MIMO diversity antenna, and the ground strip that described MIMO diversity antenna is corresponding carries out uncoupling for the WiFi antenna that the Part II of described MIMO diversity antenna and described first end accommodation space is arranged;
The Part II of described the second end accommodation space is provided with the ground strip that MIMO main antenna is corresponding with described MIMO main antenna, and the ground strip that described main antenna is corresponding carries out uncoupling for the WiFi antenna that the Part I of described MIMO main antenna and described the second end accommodation space is arranged;
The Part II of described first end accommodation space is provided with gps antenna.
4. mobile terminal according to claim 1, it is characterised in that
The Part I of the first end accommodation space of described housing is provided with the feed end match circuit of the partial radiation structure of described WiFi double antenna, the feed port of corresponding described WiFi double antenna and correspondence;
The Part III of the first end accommodation space of described housing is provided with the feed end match circuit of the partial radiation structure of described WiFi double antenna, the feed port of corresponding described WiFi double antenna and correspondence;
The Part II of described first end accommodation space is provided with two ground strips that MIMO diversity antenna is corresponding with described MIMO diversity antenna, and two ground strips that described MIMO diversity antenna is corresponding are used for described MIMO diversity antenna and described WiFi double antenna are carried out uncoupling;
The Part II of described the second end accommodation space is provided with the ground strip that MIMO main antenna is corresponding with described MIMO main antenna, for described MIMO main antenna and described WiFi double antenna are carried out uncoupling.
5. the mobile terminal according to any one of Claims 1-4, it is characterised in that
Described controller, being additionally operable to regulate match circuit corresponding to described feed port makes described WiFi double antenna go out different WiFi communication frequency ranges based on the irradiation structure resonance of described WiFi double antenna self, or, regulate the match circuit that described feed port is corresponding, make described WiFi double antenna resonance go out different WiFi communication frequency ranges in irradiation structure and the described case resonant based on described WiFi double antenna self.
6. the communication processing method for mobile terminal, it is characterised in that described mobile terminal includes:
Housing, described housing adopts metal material, including top shell, central enclosure and bottom shell, offers gap between described top shell and described central enclosure and between described central enclosure and described bottom shell;
The accommodation space of described housing is provided with Wireless Fidelity WiFi double antenna, corresponding described WiFi double antenna two feed port and with said two feed port match circuit one to one;
The accommodation space of described housing is additionally provided with controller and wireless communication unit;
Described method includes:
Described controller controls the said two feed port of described WiFi double antenna and is in feed condition, regulating said two match circuit makes described WiFi double antenna resonance in different WiFi communication frequency ranges, and controls described wireless communication unit and carry out the communication of different frequency range via described WiFi double antenna.
7. method according to claim 5, it is characterised in that
The Part I of the first end accommodation space of described housing is provided with the feed end match circuit of whole irradiation structures of described WiFi double antenna, the feed port of corresponding described WiFi double antenna and correspondence, is provided with the feed port of corresponding described WiFi double antenna and the feed end match circuit of correspondence in the Part I of the second end accommodation space of described housing;
The Part II of described first end accommodation space is provided with the ground strip that multiple-input, multiple-output MIMO diversity antenna is corresponding with described MIMO diversity antenna, and the ground strip that described MIMO diversity antenna is corresponding is used for described MIMO diversity antenna and described WiFi double antenna are carried out uncoupling;
The Part II of described the second end accommodation space is provided with the ground strip that MIMO main antenna is corresponding with described MIMO main antenna, and the ground strip that described MIMO main antenna is corresponding carries out uncoupling for the WiFi antenna that the Part I of described MIMO main antenna and described first end accommodation space is arranged;
The Part II of described first end accommodation space is provided with GPS gps antenna.
8. method according to claim 6, it is characterised in that
The Part I of the second end accommodation space of described housing is provided with the feed end match circuit of whole irradiation structures of described WiFi double antenna, the feed port of corresponding described WiFi double antenna and correspondence, is provided with the feed port of corresponding described WiFi double antenna and the feed end match circuit of correspondence in the Part I of described first end accommodation space;
The Part II of described first end accommodation space is provided with the ground strip that MIMO diversity antenna is corresponding with described MIMO diversity antenna, and the ground strip that described MIMO diversity antenna is corresponding carries out uncoupling for the WiFi antenna that the Part II of described MIMO diversity antenna and described first end accommodation space is arranged;
The Part II of described the second end accommodation space is provided with the ground strip that MIMO main antenna is corresponding with described MIMO main antenna, and the ground strip that described main antenna is corresponding carries out uncoupling for the WiFi antenna that the Part I of described MIMO main antenna and described the second end accommodation space is arranged;
The Part II of described first end accommodation space is provided with gps antenna.
9. method according to claim 6, it is characterised in that
The Part I of the first end accommodation space of described housing is provided with the feed end match circuit of the partial radiation structure of described WiFi double antenna, the feed port of corresponding described WiFi double antenna and correspondence;
The Part III of the first end accommodation space of described housing is provided with the feed end match circuit of the partial radiation structure of described WiFi double antenna, the feed port of corresponding described WiFi double antenna and correspondence;
The Part II of described first end accommodation space is provided with two ground strips that MIMO diversity antenna is corresponding with described MIMO diversity antenna, and two ground strips that described MIMO diversity antenna is corresponding are used for described MIMO diversity antenna and described WiFi double antenna are carried out uncoupling;
The Part II of described the second end accommodation space is provided with the ground strip that MIMO main antenna is corresponding with described MIMO main antenna, for described MIMO main antenna and described WiFi antenna are carried out uncoupling.
10. the method according to any one of claim 6 to 9, it is characterised in that described adjustment said two match circuit makes described WiFi double antenna resonance in different WiFi communication frequency ranges, including:
The match circuit that described controller regulates described feed port corresponding makes described WiFi double antenna go out different WiFi communication frequency ranges based on the irradiation structure resonance of described WiFi double antenna self, or, regulate the match circuit that described feed port is corresponding, make described WiFi double antenna resonance go out different WiFi communication frequency ranges in irradiation structure and the described case resonant based on described WiFi double antenna self.
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