CN107394344A - Electronic equipment, antenna and its method to set up for electronic equipment - Google Patents

Abstract

The embodiment of the present disclosure provides a kind of antenna for electronic equipment.Electronic equipment includes Part I and Part II.Antenna includes：First component, the first component is used for radiation will be by the signal of the antenna transmission, and is located at and is used to connect at the connector of the Part I and the Part II；And signal feeding part, the signal feeding part are connected to the first component, and will be by the signal of the antenna transmission for being fed to the first component.The embodiment of the present disclosure additionally provides the antenna and its method to set up for electronic equipment.

Description

Electronic equipment, antenna and its method to set up for electronic equipment

Technical field

This disclosure relates to a kind of electronic equipment, a kind of antenna and its method to set up for electronic equipment.

Background technology

The function that electronic equipment (such as mobile electronic device, such as mobile phone, notebook computer) of today needs to accommodate is got over Come more, but be more likely in design lightening so that electronic equipment internal can be used in accommodating the space of antenna increasingly Small, the design to antenna proposes serious challenge.

Therefore, it is necessary to it is a kind of can more effectively using electronic equipment space antenna design.

The content of the invention

One aspect of the present invention provides a kind of antenna for electronic equipment.The electronic equipment include Part I and Part II.Antenna includes first component and signal feeding part.First component be used for radiate will by the signal of antenna transmission, and Positioned at for connecting at the Part I of electronic equipment and the connector of Part II.Signal feeding part is connected to first Part, and will be by the signal of antenna transmission for being fed to first component.

Alternatively, Part I and Part II can have conduction in opening position adjacent to each other and adjacent with first component Layer, signal feeding part, which can have, to be used to feed by the signal feedthrough part of the signal of antenna transmission and for carrying out signal shielding Screen layer.Wherein, the sky that screen layer can be formed to the conductive layer of first component, the conductive layer of Part I and Part II Between split, with formed with first frequency the first loop.

Alternatively, the segmentation of screen layer can also form the second loop with second frequency.

Alternatively, antenna may also include first frequency regulating member.First frequency regulating member is connected to first component, and Parameter available for frequency band residing for regulation first frequency.

Alternatively, antenna may also include second frequency regulating member.Second frequency regulating member is connected to first component, and Parameter available for frequency band residing for regulation second frequency.

Alternatively, first frequency is higher than second frequency, the space that first frequency regulating member can be surrounded to the second loop Extension.

Another aspect of the present invention provides a kind of electronic equipment.The electronic equipment includes Part I, Part II With the connector for Part II to be connected with Part I.Wherein, above-described antenna is included in the connector.

Another aspect of the present invention provides a kind of method for the antenna for being provided for electronic equipment.Electronic equipment includes Part I, Part II and the connector for connecting the Part I and the Part II.This method includes：By One part is arranged at connector, and Part I, which is used to radiate, to be connected to signal feeding part by the signal of antenna transmission First component, signal feeding part is used for will be by the signal of antenna transmission to first component feeding.

Alternatively, signal feeding part can have the signal feedthrough part for the signal for being used for feeding by antenna transmission and be used for Carry out the screen layer of signal shielding.In the case, this method may also include：In the Part I and Part II of electronic equipment Opening position adjacent to each other and adjacent with first component sets conductive layer, and screen layer is arranged to first component, first The space that partial conductive layer and the conductive layer of Part II are formed is split, to form the first ring with first frequency Road.

Alternatively, the segmentation of screen layer can also form the second loop with second frequency.

Alternatively, this method may also include is connected to first component by first frequency regulating member.First frequency adjustment portion Part is used for the parameter for adjusting frequency band residing for first frequency.

Alternatively, this method may also include is connected to first component by second frequency regulating member.First frequency adjustment portion Part is used for the parameter for adjusting frequency band residing for second frequency.

Alternatively, first frequency is higher than second frequency.In the case, this method may also include：First frequency is adjusted Part is arranged to be surrounded to the second loop spatially extended.

Brief description of the drawings

For a more complete understanding of the present invention and its advantage, referring now to the following description with reference to accompanying drawing, wherein：

Fig. 1 diagrammatically illustrates the schematic diagram of the antenna according to the embodiment of the present disclosure；

Fig. 2 diagrammatically illustrates the schematic diagram of the example for realizing the antenna according to the embodiment of the present disclosure；

Fig. 3 diagrammatically illustrates the schematic diagram of the electronic equipment according to the embodiment of the present disclosure；

Fig. 4 diagrammatically illustrates an example of the antenna placement location according to the embodiment of the present disclosure；

Fig. 5 diagrammatically illustrates the flow for being used to arrange the method for antenna in the electronic device according to the embodiment of the present disclosure Figure；And

Fig. 6 diagrammatically illustrates the brief block diagram of the electronic equipment according to the embodiment of the present disclosure.

Embodiment

Hereinafter, it will be described with reference to the accompanying drawings embodiment of the disclosure.However, it should be understood that these descriptions are simply exemplary , and it is not intended to limit the scope of the present disclosure.In addition, in the following description, the description to known features and technology is eliminated, with Avoid unnecessarily obscuring the concept of the disclosure.

Term as used herein is not intended to limit the disclosure just for the sake of description specific embodiment.Used here as Word " one ", " one (kind) " and "the" etc. should also include " multiple ", the meaning of " a variety of ", unless context clearly refers in addition Go out.In addition, term " comprising " as used herein, "comprising" etc. indicate the presence of the feature, step, operation and/or part, But it is not excluded that in the presence of or other one or more features of addition, step, operation or parts.

All terms (including technology and scientific terminology) as used herein have what those skilled in the art were generally understood Implication, unless otherwise defined.It should be noted that term used herein should be interpreted that with consistent with the context of this specification Implication, without should by idealization or it is excessively mechanical in a manner of explain.

Shown in the drawings of some block diagrams and/or flow chart.It should be understood that some sides in block diagram and/or flow chart Frame or its combination can be realized by computer program instructions.These computer program instructions can be supplied to all-purpose computer, The processor of special-purpose computer or other programmable data processing units, so as to which these instructions can be with when by the computing device Create the device for realizing function/operation illustrated in these block diagrams and/or flow chart.

Therefore, the technology of the disclosure can be realized in the form of hardware and/or software (including firmware, microcode etc.).Separately Outside, the technology of the disclosure can take the form of the computer program product on the computer-readable medium for being stored with instruction, should Computer program product is available for instruction execution system use or combined command execution system to use.In the context of the disclosure In, computer-readable medium can be the arbitrary medium that can include, store, transmit, propagate or transmit instruction.For example, calculate Machine computer-readable recording medium can include but is not limited to electricity, magnetic, optical, electromagnetic, infrared or semiconductor system, device, device or propagation medium. The specific example of computer-readable medium includes：Magnetic memory apparatus, such as tape or hard disk (HDD)；Light storage device, such as CD (CD-ROM)；Memory, such as random access memory (RAM) or flash memory；And/or wire/wireless communication link.

Fig. 1 diagrammatically illustrates the schematic diagram of the antenna according to the embodiment of the present disclosure.

As shown in figure 1, the antenna applications are in electronic equipment.Electronic equipment includes Part I 111 and Part II 113. Part I 111 and Part II 113 are connected by connector 115.Antenna includes first component 122 and signal feedthrough part 124.First component 122 is used to radiate the signal to be transmitted by antenna 120, and at the connector 115 of electronic equipment.Signal Feeding part 124 is connected to first component 122, and for feeding the signal to be transmitted by antenna 120 to first component 122.

Due to not being placed through day generally in the connector 115 between two different pieces 111 and 113 of electronic equipment Line is positioned over the module for realizing sophisticated functions and element (such as camera, processor etc.), and the embodiment of the present disclosure places antenna The circuit layout in the main body (such as part 111 and 113) of electronic equipment will not be impacted at connector 115, it is convenient The hardware design of electronic equipment.

In the case of two connectors 115 are shown in Fig. 1, it is noted, however, that according to the specific of electronic equipment It is related to, may also be only with 1 connector or with more connectors in concrete implementation.With two or more companies In the case of fitting, according to the design of the particular hardware of electronic equipment (for example, signal feeds where of the part 124 from electronic equipment Draw, radio-frequency signal processing module/element places where etc.), antenna can be placed in any one or more (for example, multiple The situation of antenna) at connector.

The concrete form of antenna shown in Fig. 1 can use any design commonly used in the art, the scope of the present invention Do not limited by antenna concrete form.For example, can using the antenna that inverted f or other common types are placed at connector 115 come Put into practice the scheme of the embodiment of the present disclosure.But different antenna designs can also be used in some other embodiment.

For example, in some instances, Part I 111 and Part II 113 can it is adjacent to each other and with first component 122 Adjacent opening position has conductive layer, and signal feeding part 124 can have to be used to feed to be presented by the signal of the signal of antenna transmission Send part and the screen layer for carrying out signal shielding.Wherein, screen layer can be to the conduction of first component 122, Part I 111 The space that the conductive layer of layer and Part II 113 is formed is split, to form the first loop with first frequency.

The first loop with first frequency means that the resonant frequency of the loop is first frequency, such as the girth of the loop For the wavelength of first frequency.

Such scheme takes full advantage of signal feeding part 124 and the existing layout of electronic equipment realizes antenna, reduces The cost and complexity of designed antenna.

The schematic diagram for realizing such a example according to the embodiment of the present disclosure is shown in Fig. 2.In showing for Fig. 2 In example, signal feeding part 124 can be coaxial radio frequency cable, and it may include for the cored wire of feed signal and dry for shielding Disturb the screen layer of signal.First component 122 can be the connection between the Part I 111 of electronic equipment and Part II 113 Current-carrying part in part 115, such as the rotating shaft metalwork for Part I 111 to be rotated relative to Part II 113.At this Under the example of sample, the screen layer of coaxial cable can be used for conductive layer and Part II to first component 122, Part I 111 The space that 113 conductive layer is formed is split, to form the first loop with first frequency, such as the chain-dotted line in Fig. 2 Shown in the region limited.In concrete implementation, countershaft and periphery housing (such as conductive layer of Part I 111 and second The conductive layer of part 113) be rationally grounded, to the radio frequency coaxial-cable for feed signal in position on connect Ground.Specific grounding design can be different according to specific Antenna Design, can use any grounding design used in this area Method is carried out, and will not be repeated here.It should be noted that being only an example of the embodiment of the present disclosure shown in Fig. 2, should not serve to Limiting the scope of the invention, those skilled in the art can make the various modifications for falling into the scope of the present invention to it. For example, signal feeding part 124 can be any cable or part suitable for feed signal.And it is not limited to RF coaxial line Cable.For example, can by other means rather than the screen layers of radio frequency coaxial cables divides loop.What is formed has the first frequency First loop of rate may not be the loop shown in the region that the chain-dotted line in Fig. 2 is limited, and for example can be dotted line institute Show the loop shown in region.

In the illustrated example shown in fig. 2, the segmentation of screen layer can also form the second loop with second frequency, such as Fig. 2 The chain-dotted line of loop (when the first loop is the region that the chain-dotted line in Fig. 2 is limited) or Fig. 2 shown in dotted line shown in region Loop shown in shown region (when the first loop is the region that the dotted line in Fig. 2 is limited).

The second loop with second frequency means that the resonant frequency of the loop is second frequency, such as the girth of the loop For the wavelength of second frequency.

In the case of using each antenna is placed using multiple loops and in multiple connectors, multifrequency can be achieved more days The design of line, this is highly beneficial for the MIMO demands for meeting such as WLAN wireless communication systems.

In the illustrated example shown in fig. 2, antenna may also include first frequency regulating member 126.First frequency regulating member 126 First component 122 is connected to, and available for the parameter of frequency band residing for regulation first frequency.Parameter described herein includes but unlimited In low-and high-frequency characteristic impedance, bandwidth, gain.First frequency regulating member 126 can be used for the micro- of first (resonance) frequency of antenna Adjust.

In the example for forming the second loop, antenna may also include second frequency regulating member 128.Second frequency adjustment portion Part 128 is connected to first component 122, and available for the parameter of frequency band residing for regulation second frequency.Parameter described herein includes But it is not limited to low-and high-frequency characteristic impedance, bandwidth and gain etc..Second frequency regulating member 128 can be used for second (resonance) of antenna The fine setting of frequency.

The frequency of first frequency regulating member 126 and second can be designed by any circuit design used in this area Rate regulating member 128, designed for example with microstrip line and other any kind of conductor wires/band, and determine to have by emulating Body parameter.Herein, conductive layer/line/with referring to layer/line/band for being formed of available any conductive material in this area.Should Conductive material may include any applicable conductive metal material and non-metallic conducting material.In some instances, conductive material is Copper.

In some specific applications, first frequency can be higher than second frequency.Such as first frequency can be 5GHz (times Frequently), and second frequency can be 2.4GHz (main resonance).Certainly, it is other according to specific application and specific circuit design Frequency is also possible.First frequency and second frequency can have frequency multiplication relation, can also be any relation according to specific implementation.

In some instances, when first frequency is higher than second frequency, first frequency regulating member 126 can be to the second loop (that is, low frequency loop) is surrounded spatially extended.This design make use of different frequency branch (high-frequency branch and low frequency branch) Between coupling improve tuning and the bandwidth match of both high and low frequencies.In addition, when first frequency (high frequency) is the second frequency During the frequency multiplication of rate (low frequency), the frequency multiplication of low frequency can also be utilized to supplement the bandwidth of high frequency.Such as first frequency be 5GHz and In the case that second frequency is 2.4GHz, because such as bandwidth of 5GHz frequency ranges is close to 1GHz, the resonant bandwidth one of single branch As less enough bandwidth for all covering the 1GHz, the embodiment of the present disclosure is by using this between the low-and high-frequency branch shown in Fig. 2 Covering of the kind coupling to pass through the frequency multiplication of low frequency branch or by increasing spurious resonance supplement 5GHz band bandwidths.

Fig. 3 shows the schematic diagram of the electronic equipment according to the embodiment of the present disclosure.

As shown in figure 3, the electronic equipment includes Part I 111, Part II 113 and for by Part II and first The connector 115 that part is connected.Wherein, the antenna shown in Fig. 1 or Fig. 2 is included in the connector.

Although electronic equipment is shown as the form of notebook computer by Fig. 3, it is noted, however, that the embodiment of the present disclosure Described electronic equipment is not limited to notebook computer, and can be it is any have at least two parts and at least two part it Between the electronic equipment that is connected by connector, such as mobile phone, computer, digital broadcast terminal, messaging devices, game Console, tablet device, Medical Devices, body-building equipment or personal digital assistant etc..

In some instances, such as in the case where electronic equipment is notebook computer, Part I can be display screen, Part II can be keyboard, or vice versa it is as the same.But in other examples, Part I and Part II can also have not Same function, the embodiment of the present disclosure are not limited by the concrete function of Part I and Part II.

In addition, the connector of the different piece for connecting electronic equipment is also not necessarily limited to two (connector A shown in Fig. 3 115 and connector B 115), and can have more or less quantity as needed.Connector described in the embodiment of the present disclosure Can be that inseparable connector (such as connecting Part I and Part II of electronic equipment all the time) or can divide From connector (such as the Part I of electronic equipment and Part II can be temporarily separated).In the situation of separately attached parts Under, it can be positioned over according to the antenna of the embodiment of the present disclosure at any portion of separated connector.

Fig. 4 shows an example of the antenna placement location according to the embodiment of the present disclosure.As shown in figure 4, the antenna is put Put at the connector between the different piece of electronic equipment.

Fig. 5 shows the method for being used to arrange antenna in the electronic device according to the embodiment of the present disclosure.The electronic equipment Including Part I, Part II and connector for connecting Part I and Part II.

As shown in figure 5, this method includes operation S510, first component is arranged at connector, Part I is used for spoke First component will be connected to, signal feeding part is used for first component by the signal of antenna transmission by signal feeding part by penetrating Feeding will be by the signal of antenna transmission.

Due to not put generally in the connector between the different piece (such as Part I and Part II) of electronic equipment Put the module that sophisticated functions is realized by the way that antenna is positioned over and element (such as camera, processor etc.), the embodiment of the present disclosure Antenna is positioned at connector will not be to the circuit layout in the main body (such as Part I and Part II) of electronic equipment Impact, facilitate the hardware design of electronic equipment.

In some instances, signal feeding part, which can have, is used to feed by the signal feedthrough part of the signal of antenna transmission With the screen layer for carrying out signal shielding.In the case, this method may also include：In the Part I of electronic equipment and Two parts opening position adjacent to each other and adjacent with first component sets conductive layer, and screen layer is arranged to first The space that the conductive layer of part, the conductive layer of Part I and Part II is formed is split, and has first frequency to be formed The first loop.

The first loop with first frequency means that the resonant frequency of the loop is first frequency, such as the girth of the loop For the wavelength of first frequency.

Such scheme takes full advantage of signal feeding part 124 and the existing layout of electronic equipment realizes antenna, reduces The cost and complexity of designed antenna.

In some instances, the segmentation of screen layer can also form the second loop with second frequency.

The second loop with second frequency means that the resonant frequency of the loop is second frequency, such as the girth of the loop For the wavelength of second frequency.

In the case of using each antenna is placed using multiple loops and in multiple connectors, multifrequency can be achieved more days The design of line, this is highly beneficial for the MIMO demands for meeting such as WLAN wireless communication systems.

In some instances, such as in the figure 2 example, signal feeding part 124 can be coaxial radio frequency cable, and it can Screen layer including the cored wire for feed signal and for shielding interference signal.First component 122 can be electronic equipment The current-carrying part in connector 115 between Part I 111 and Part II 113, such as Part I 111 is relative In the rotating shaft metalwork that Part II 113 rotates.Under such example, the screen layer of coaxial cable can be used for first component 122nd, the space that the conductive layer of the conductive layer of Part I 111 and Part II 113 is formed is split, and has the to be formed First loop of one frequency, shown in the region limited such as the chain-dotted line in Fig. 2.In concrete implementation, countershaft and periphery Housing (such as conductive layer of the conductive layer of Part I 111 and Part II 113) is rationally grounded, to for feed signal Radio frequency coaxial-cable in position on be grounded.Specific grounding design can be different according to specific Antenna Design, can Carried out, will not be repeated here using any grounding design method used in this area.It should be noted that only it is this public affairs shown in Fig. 2 An example of embodiment is opened, should not serve to limiting the scope of the invention, those skilled in the art can do to it Go out to fall into the various modifications of the scope of the present invention.For example, signal feeding part 124 can any be applied to feed signal Cable or part.And it is not limited to radio frequency coaxial cables.For example, can by other means rather than radio frequency coaxial cables screen layer To divide loop.The first loop with first frequency formed may not be the region that the chain-dotted line in Fig. 2 is limited Shown loop, and for example can be the loop shown in dotted line shown in region.

In some instances, this method may also include is connected to first component by first frequency regulating member.First frequency Regulating member is used for the parameter for adjusting frequency band residing for first frequency.Parameter described herein includes but is not limited to the resistance of low-and high-frequency characteristic Anti-, bandwidth, gain.First frequency regulating member can be used for the fine setting of first (resonance) frequency of antenna.

In the example for forming the second loop, this method may also include is connected to first by second frequency regulating member Part.First frequency regulating member is used for the parameter for adjusting frequency band residing for second frequency.Parameter described herein includes but is not limited to Low-and high-frequency characteristic impedance, bandwidth and gain etc..Second frequency regulating member can be used for the fine setting of second (resonance) frequency of antenna.

First frequency regulating member and second frequency can be designed by any circuit design used in this area Regulating member, designed for example with microstrip line and other any kind of conductor wires/band, and determine specifically to join by emulating Number.Herein, conductive layer/line/with referring to layer/line/band for being formed of available any conductive material in this area.The conduction Material may include any applicable conductive metal material and non-metallic conducting material.In some instances, conductive material is copper.

In some specific applications, first frequency can be higher than second frequency.Such as first frequency can be 5GHz (times Frequently), and second frequency can be 2.4GHz (main resonance).Certainly, it is other according to specific application and specific circuit design Frequency is also possible.First frequency and second frequency can have frequency multiplication relation, can also be any relation according to specific implementation.

In some instances, when first frequency is higher than second frequency, the method shown in Fig. 4 may also include：By the first frequency Rate regulating member is arranged to be surrounded to the second loop spatially extended..This design make use of different frequency branch (high frequency division Branch and low frequency branch) between coupling improve tuning and the bandwidth match of both high and low frequencies.In addition, work as first frequency When (high frequency) is the frequency multiplication of second frequency (low frequency), the frequency multiplication of low frequency can also be utilized to supplement the bandwidth of high frequency.Such as One frequency is 5GHz and in the case that second frequency is 2.4GHz, because such as bandwidth of 5GHz frequency ranges is close to 1GHz, single point The typically less enough bandwidth for all covering the 1GHz of the resonant bandwidth of branch, the embodiment of the present disclosure is by using between low-and high-frequency branch This coupling come pass through the frequency multiplication of low frequency branch or by increase spurious resonance supplement 5GHz band bandwidths covering.

Fig. 6 diagrammatically illustrates the block diagram of equipment in accordance with an embodiment of the present disclosure.Equipment shown in Fig. 6 is only one Example, any restrictions should not be brought to the function and use range of the embodiment of the present disclosure.

As shown in fig. 6, include CPU (CPU) 601 according to the equipment 600 of the embodiment, it can be according to depositing Store up the program in read-only storage (ROM) 602 or be loaded into from storage part 608 in random access storage device (RAM) 603 Program and perform various appropriate actions and processing.In RAM 603, also it is stored with equipment 600 and operates required various journeys Sequence and data.CPU 601, ROM 602 and RAM 603 are connected with each other by bus 604.Input/output (I/O) interface 605 It is also connected to bus 604.

Equipment 600 can also include be connected to I/O interfaces 605 with one or more in lower component：Including keyboard or The importation 606 of mouse etc.；Including cathode-ray tube (CRT) or liquid crystal display (LCD) etc. and loudspeaker etc. Output par, c 607；Storage part 608 including hard disk etc.；And include the network interface of LAN card or modem etc. The communications portion 609 of card.Communications portion 609 performs communication process via the network of such as internet.Driver 610 is also according to need It is connected to I/O interfaces 605.Detachable media 611, such as disk, CD, magneto-optic disk or semiconductor memory etc., according to Need to be arranged on driver 610, in order to which the computer program read from it is mounted into storage part as needed 608。

Especially, in accordance with an embodiment of the present disclosure, it may be implemented as computer above with reference to the process of flow chart description Software program.For example, embodiment of the disclosure includes a kind of computer program product, it includes being carried on computer-readable medium On computer program, the computer program include be used for execution flow chart shown in method program code.In such reality To apply in example, the computer program can be downloaded and installed by communications portion 609 from network, and/or from detachable media 611 are mounted.When the computer program is performed by CPU (CPU) 601, in the equipment for performing the embodiment of the present disclosure The above-mentioned function of limiting.

It should be noted that the computer-readable medium shown in the disclosure can be computer-readable signal media or meter Calculation machine readable storage medium storing program for executing either the two any combination.Computer-readable recording medium for example can be --- but not Be limited to --- electricity, magnetic, optical, electromagnetic, system, device or the device of infrared ray or semiconductor, or it is any more than combination.Calculate The more specifically example of machine readable storage medium storing program for executing can include but is not limited to：Electrically connecting, be portable with one or more wires Formula computer disk, hard disk, random access storage device (RAM), read-only storage (ROM), erasable programmable read only memory (EPROM or flash memory), optical fiber, portable compact disc read-only storage (CD-ROM), light storage device, magnetic memory device or Above-mentioned any appropriate combination.In the disclosure, computer-readable recording medium can be any includes or storage program Tangible medium, the program can be commanded the either device use or in connection of execution system, device.And in the disclosure In, computer-readable signal media can be included in a base band or as a part of data-signal propagated of carrier wave, wherein Carry computer-readable program code.The data-signal of this propagation can take various forms, and include but is not limited to electricity Magnetic signal, optical signal or above-mentioned any appropriate combination.Computer-readable signal media can also be computer-readable and deposit Any computer-readable medium beyond storage media, the computer-readable medium can be sent, propagated or transmitted for by referring to Make execution system, device either device use or program in connection.The program included on computer-readable medium Code can be transmitted with any appropriate medium, be included but is not limited to：Wirelessly, electric wire, optical cable or RF etc., or above-mentioned times The suitable combination of meaning.

Flow chart and block diagram in accompanying drawing, it is illustrated that according to the system of the various embodiments of the disclosure, method and computer journey Architectural framework in the cards, function and the operation of sequence product.At this point, each square frame in flow chart or block diagram can generation The part of one module of table, program segment or code, a part for above-mentioned module, program segment or code include one or more use In the executable instruction of logic function as defined in realization.It should also be noted that marked at some as in the realization replaced in square frame The function of note can also be with different from the order marked in accompanying drawing generation.For example, two square frames succeedingly represented are actually It can perform substantially in parallel, they can also be performed in the opposite order sometimes, and this is depending on involved function.Also to note Anticipate, the combination of each square frame and block diagram in block diagram or flow chart or the square frame in flow chart, can use and perform regulation Function or the special hardware based system of operation realize, or the combination of specialized hardware and computer instruction can be used To realize.

Such as field programmable gate can also be used according to the method, apparatus of various embodiments of the present invention, unit and/or module Array (FPGA), programmable logic array (PLA), on-chip system, the system on substrate, the system in encapsulation, special integrated electricity Road (ASIC) can be come in fact for carrying out the hardware such as any other rational method that is integrated or encapsulating or firmware to circuit It is existing, or realized with software, the appropriately combined of three kinds of implementations of hardware and firmware.The system can include storage device, To realize storage as described above.When realizing in such ways, used software, hardware and/or firmware be programmed or It is designed as performing the corresponding above method, step and/or the function according to the present invention.Those skilled in the art can be according to actual need Come one or more of these systems and module suitably, or a part therein or some use it is different upper Implementation is stated to realize.These implementations each fall within protection scope of the present invention.

As the skilled person will appreciate, for any and all purpose, such as written theory is being provided The aspect of bright book, all scopes disclosed herein are also covered by any and all possible subrange and its son The combination of scope.Any listed scope, which can be readily identified into, sufficiently to be described and enables same scope At least it is broken down into equal two parts, three parts, four parts, five parts, ten parts, etc..As nonrestrictive example, Each scope discussed herein can be easily decomposed into down 1/3rd, in 1/3rd and upper three/ One etc..Such as those skilled in the art it will also be understood that, all languages of " until ", " at least ", " being more than ", " being less than " etc. Yan Jun includes stated quantity and is the scope for referring to be broken down into subrange as discussed above therewith.Finally, As the skilled person will appreciate, scope includes each single composition.So for example, group with 1-3 unit Refer to the group with 1,2 or 3 unit.Similarly, the group with 1-5 unit refers to 1,2,3,4 or 5 unit Group, etc..

Although the present invention, art technology has shown and described with reference to the certain exemplary embodiments of the present invention Personnel it should be understood that without departing substantially from appended claims and its equivalent restriction the spirit and scope of the present invention in the case of, Can be to a variety of changes in carry out form and details of the present invention.Therefore, the scope of the present invention should not necessarily be limited by above-described embodiment, But not only should be determined by appended claims, also it is defined by the equivalent of appended claims.

Claims (9)

1. a kind of antenna for electronic equipment, the electronic equipment includes Part I and Part II, and the antenna includes：

First component, the first component is used to radiating will be by the signal of the antenna transmission, and positioned at being used to connect described the At the connector of a part of and described Part II；And

Signal feeds part, and the signal feeding part is connected to the first component, and for being fed to the first component Will be by the signal of the antenna transmission.

2. antenna according to claim 1, wherein, the Part I and the Part II it is adjacent to each other and with institute Stating the adjacent opening position of first component has conductive layer, and the signal feeding part, which has, to be used to feed by the antenna transmission The signal feedthrough part of signal and the screen layer for carrying out signal shielding,

Wherein, conductive layer of the screen layer to the first component, the conductive layer of the Part I and the Part II The space formed is split, to form the first loop with first frequency and/or the second loop with second frequency.

3. antenna according to claim 2, in addition to：

First frequency regulating member, the first frequency regulating member are connected to the first component, and for adjusting described the The parameter of frequency band residing for one frequency；And/or

Second frequency regulating member, the second frequency regulating member are connected to the first component, and for adjusting described the The parameter of frequency band residing for two frequencies.

4. antenna according to claim 3, wherein, when the segmentation of the screen layer forms the first ring with first frequency Road and/or the second loop with second frequency and when the first frequency be higher than the second frequency, first frequency tune Section part is surrounded spatially extended to second loop.

5. a kind of electronic equipment, including：

Part I；

Part II；And

For the connector that the Part II is connected with the Part I,

Wherein, antenna according to any one of claim 1 to 4 is included in the connector.

6. a kind of method for the antenna for being provided for electronic equipment, the electronic equipment includes Part I, Part II and use In the connector for connecting the Part I and the Part II, methods described includes：

First component is arranged at the connector, the Part I is used for radiation will be by the signal of the antenna transmission； And

Signal feeding part is connected to the first component, the signal feeding part is used for will to first component feeding By the signal of the antenna transmission.

7. according to the method for claim 6, wherein, the signal feeding part, which has, to be used to feed by the antenna transmission Signal signal feedthrough part and screen layer for carrying out signal shielding, methods described also include：

It is adjacent to each other and adjacent with the first component in the Part I of the electronic equipment and the Part II Opening position sets conductive layer, and

The screen layer is arranged to the conduction to the first component, the conductive layer of the Part I and the Part II The space that layer is formed is split, to form the first loop with first frequency and/or the second ring with second frequency Road.

8. the method according to claim 11, in addition to：

First frequency regulating member is connected to the first component, the first frequency regulating member is used to adjust described first The parameter of frequency band residing for frequency；And/or

Second frequency regulating member is connected to the first component, the second frequency regulating member is used to adjust described second The parameter of frequency band residing for frequency.

9. according to the method for claim 8, wherein, the first ring with first frequency is formed when splitting for the screen layer Road and/or with second frequency the second loop and the first frequency be higher than the second frequency when, methods described also includes：

The first frequency regulating member is arranged to be surrounded to second loop spatially extended.