CN107681250A - Antenna structure and the radio communication device with the antenna structure - Google Patents
Antenna structure and the radio communication device with the antenna structure Download PDFInfo
- Publication number
- CN107681250A CN107681250A CN201710564746.9A CN201710564746A CN107681250A CN 107681250 A CN107681250 A CN 107681250A CN 201710564746 A CN201710564746 A CN 201710564746A CN 107681250 A CN107681250 A CN 107681250A
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- Prior art keywords
- metal
- breakpoint
- arm
- frequency range
- grounding parts
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Classifications
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q1/00—Details of, or arrangements associated with, antennas
- H01Q1/36—Structural form of radiating elements, e.g. cone, spiral, umbrella; Particular materials used therewith
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q1/00—Details of, or arrangements associated with, antennas
- H01Q1/12—Supports; Mounting means
- H01Q1/22—Supports; Mounting means by structural association with other equipment or articles
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q1/00—Details of, or arrangements associated with, antennas
- H01Q1/12—Supports; Mounting means
- H01Q1/22—Supports; Mounting means by structural association with other equipment or articles
- H01Q1/24—Supports; Mounting means by structural association with other equipment or articles with receiving set
- H01Q1/241—Supports; Mounting means by structural association with other equipment or articles with receiving set used in mobile communications, e.g. GSM
- H01Q1/242—Supports; Mounting means by structural association with other equipment or articles with receiving set used in mobile communications, e.g. GSM specially adapted for hand-held use
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q1/00—Details of, or arrangements associated with, antennas
- H01Q1/12—Supports; Mounting means
- H01Q1/22—Supports; Mounting means by structural association with other equipment or articles
- H01Q1/24—Supports; Mounting means by structural association with other equipment or articles with receiving set
- H01Q1/241—Supports; Mounting means by structural association with other equipment or articles with receiving set used in mobile communications, e.g. GSM
- H01Q1/242—Supports; Mounting means by structural association with other equipment or articles with receiving set used in mobile communications, e.g. GSM specially adapted for hand-held use
- H01Q1/243—Supports; Mounting means by structural association with other equipment or articles with receiving set used in mobile communications, e.g. GSM specially adapted for hand-held use with built-in antennas
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q1/00—Details of, or arrangements associated with, antennas
- H01Q1/12—Supports; Mounting means
- H01Q1/22—Supports; Mounting means by structural association with other equipment or articles
- H01Q1/24—Supports; Mounting means by structural association with other equipment or articles with receiving set
- H01Q1/241—Supports; Mounting means by structural association with other equipment or articles with receiving set used in mobile communications, e.g. GSM
- H01Q1/242—Supports; Mounting means by structural association with other equipment or articles with receiving set used in mobile communications, e.g. GSM specially adapted for hand-held use
- H01Q1/243—Supports; Mounting means by structural association with other equipment or articles with receiving set used in mobile communications, e.g. GSM specially adapted for hand-held use with built-in antennas
- H01Q1/244—Supports; Mounting means by structural association with other equipment or articles with receiving set used in mobile communications, e.g. GSM specially adapted for hand-held use with built-in antennas extendable from a housing along a given path
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q1/00—Details of, or arrangements associated with, antennas
- H01Q1/44—Details of, or arrangements associated with, antennas using equipment having another main function to serve additionally as an antenna, e.g. means for giving an antenna an aesthetic aspect
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q1/00—Details of, or arrangements associated with, antennas
- H01Q1/48—Earthing means; Earth screens; Counterpoises
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q1/00—Details of, or arrangements associated with, antennas
- H01Q1/50—Structural association of antennas with earthing switches, lead-in devices or lightning protectors
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q5/00—Arrangements for simultaneous operation of antennas on two or more different wavebands, e.g. dual-band or multi-band arrangements
- H01Q5/20—Arrangements for simultaneous operation of antennas on two or more different wavebands, e.g. dual-band or multi-band arrangements characterised by the operating wavebands
- H01Q5/28—Arrangements for establishing polarisation or beam width over two or more different wavebands
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q5/00—Arrangements for simultaneous operation of antennas on two or more different wavebands, e.g. dual-band or multi-band arrangements
- H01Q5/30—Arrangements for providing operation on different wavebands
- H01Q5/307—Individual or coupled radiating elements, each element being fed in an unspecified way
- H01Q5/314—Individual or coupled radiating elements, each element being fed in an unspecified way using frequency dependent circuits or components, e.g. trap circuits or capacitors
- H01Q5/328—Individual or coupled radiating elements, each element being fed in an unspecified way using frequency dependent circuits or components, e.g. trap circuits or capacitors between a radiating element and ground
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/02—Constructional features of telephone sets
- H04M1/0202—Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
- H04M1/026—Details of the structure or mounting of specific components
Abstract
A kind of antenna structure includes metalwork,First feeding portion,First grounding parts and the second grounding parts,Metalwork includes metal front frame and metal edge frame,Fluting is opened up at the top of metal edge frame,The second breakpoint and the 3rd breakpoint are opened up in metal front frame,Second breakpoint is between two ends of fluting,3rd breakpoint is positioned at an end of fluting,Second breakpoint and the 3rd breakpoint connect with fluting and extend to the cut-off metal front frame,Metal front frame between the second breakpoint and the 3rd breakpoint forms the first radiant section,First feeding portion is electrically connected to the first radiant section,First feeding portion feed-in electric current is flowed to excite the radiation signal of the first frequency range and the second frequency range respectively to the first radiant section and along the both ends of the first feeding portion,Electric current flows to the second grounding parts to excite the radiation signal of the 3rd frequency range along the first radiant section,The frequency of first frequency range is higher than the frequency of the 3rd frequency range,The frequency of 3rd frequency range is higher than the frequency of the second frequency range.A kind of radio communication device with the antenna structure is also provided.
Description
Technical field
The present invention relates to a kind of antenna structure and with the antenna structure radio communication device.
Background technology
With the progress of wireless communication technology, radio communication device is constantly towards frivolous trend development, and consumer is for production
The requirement of product outward appearance also more and more higher.Because metal shell in outward appearance, laser intensity, radiating effect etc. has advantage, because
This increasing manufacturer designs the radio communication device with metal shell, such as metal backing to meet the need of consumer
Ask.But the signal that the antenna that sets within it of the easy interference shielding of metal shell is radiated, it is not easy to reach wideband design,
Cause the radiance of built-in aerial bad.Furthermore fluting and breakpoint are further typically provided with the metal backing, so by shadow
Ring the integrality and aesthetic property of metal backing.
The content of the invention
In view of this, it is necessary to which a kind of antenna structure and the radio communication device with the antenna structure are provided.
A kind of antenna structure, including metalwork, the first feeding portion, the first grounding parts and the second grounding parts, the metalwork
Including metal front frame, metal backing and metal edge frame, the metal edge frame is located in the metal front frame and carried on the back with the metal
Between plate, the metal edge frame comprises at least top, the first sidepiece and the second sidepiece, first sidepiece and second side
Portion connects the both ends at the top respectively, and fluting is offered on the metal edge frame, and the fluting is at least laid in the top
On, open up the second breakpoint and the 3rd breakpoint in the metal front frame, second breakpoint be located at the fluting two ends it
Between, the 3rd breakpoint is located at an end of the fluting, and second breakpoint and the 3rd breakpoint connect simultaneously with the fluting
The cut-off metal front frame is extended to, wherein the metal front frame between the second breakpoint and the 3rd breakpoint forms the first radiation
Section, first feeding portion, the first grounding parts and the second grounding parts are electrically connected to first radiant section, and first feed-in
Portion is between first grounding parts and the second grounding parts, the first feeding portion feed-in electric current to first radiant section,
The electric current simultaneously flows to second breakpoint and first grounding parts to excite the spoke of the first frequency range along first radiant section
Penetrate signal, the electric current is along first radiant section to the 3rd breakpoint and second grounding parts to excite the second frequency range
Radiation signal, the electric current also flow to second breakpoint, the 3rd breakpoint and the second grounding parts to swash along first radiant section
The radiation signal of the 3rd frequency range is sent out, the frequency of first frequency range is higher than the frequency of the 3rd frequency range, and the frequency of the 3rd frequency range is higher than
The frequency of second frequency range.
A kind of radio communication device, including above-mentioned antenna structure.
Above-mentioned antenna structure and with the antenna structure radio communication device can cover tremendously low frequency, intermediate frequency, high frequency, GPS,
WIFI 2.4/5GHz double frequencies, frequency range are wider.In addition, the fluting and breakpoint on the metalwork of the antenna structure may be contained within
In the metal front frame and metal edge frame, it is not arranged on the metal backing so that the metal backing forms all-metal
Structure, i.e., not fluting, broken string or the breakpoint of insulation on described metal backing so that the metal backing can be avoided due to opening
Groove, broken string or breakpoint setting and influence the integrality and aesthetic property of metal backing.
Brief description of the drawings
Fig. 1 is that the antenna structure of first embodiment of the invention is applied to the schematic diagram of radio communication device.
Fig. 2 is the assembling schematic diagram of radio communication device shown in Fig. 1.
Fig. 3 is the assembling schematic diagram under another angle of radio communication device shown in Fig. 1.
Fig. 4 be first embodiment of the invention antenna structure in switching circuit circuit diagram.
Current trend figure when antenna structure shown in Fig. 5 Fig. 1 works.
Fig. 6 be antenna structure shown in Fig. 1 work in LTE-A low frequency modals, LTE-A intermediate frequencies mode, LTE-A high frequencies mode and
Return loss plot figure during GPS mode.
Fig. 7 is return loss plot when antenna structure shown in Fig. 1 works in WiFi 2.4G mode and WiFi 5G mode
Figure.
Fig. 8 be antenna structure shown in Fig. 1 work in LTE-A low frequency modals, LTE-A intermediate frequencies mode, LTE-A high frequencies mode and
Radiation efficiency figure during GPS mode.
Fig. 9 is radiation efficiency figure when antenna structure shown in Fig. 1 works in WiFi 2.4G mode and WiFi 5G mode.
Figure 10 is that the antenna structure of second embodiment of the invention is applied to the schematic diagram of radio communication device.
Figure 11 is the assembling schematic diagram of radio communication device shown in Figure 10.
Figure 12 is the assembling schematic diagram under another angle of radio communication device shown in Figure 10.
Figure 13 be second embodiment of the invention antenna structure in switching circuit circuit diagram.
Current trend figure when antenna structure shown in Figure 14 Figure 10 works.
Figure 15 is that antenna structure shown in Figure 10 works in LTE-A low frequency modals, LTE-A intermediate frequencies mode, LTE-A high frequency mode
And return loss plot figure during GPS mode.
Figure 16 is return loss song when antenna structure shown in Figure 10 works in WiFi 2.4G mode and WiFi 5G mode
Line chart.
Figure 17 is that antenna structure shown in Figure 10 works in LTE-A low frequency modals, LTE-A intermediate frequencies mode, LTE-A high frequency mode
And radiation efficiency figure during GPS mode.
Figure 18 is radiation efficiency figure when antenna structure shown in Figure 10 works in WiFi 2.4G mode and WiFi 5G mode.
Figure 19 is that the antenna structure of third embodiment of the invention is applied to the schematic diagram of radio communication device.
Figure 20 is the assembling schematic diagram of radio communication device shown in Figure 19.
Figure 21 is radio communication device part assembling schematic diagram shown in Figure 20.
Figure 22 is current trend figure when antenna structure shown in Figure 21 works.
Figure 23 be third embodiment of the invention antenna structure in match circuit circuit diagram.
Figure 24 be third embodiment of the invention antenna structure in switching circuit circuit diagram.
S parameter curve map when Figure 25 is the antenna structure work of third embodiment of the invention.
Radiation efficiency figure when Figure 26 is the antenna structure work of third embodiment of the invention.
Main element symbol description
Embodiment 1
Antenna structure 100
Metalwork 11
Metal front frame 111
Metal backing 112
Metal edge frame 113
Accommodation space 114
Top 115
First sidepiece 116
Second sidepiece 117
Fluting 118
First breakpoint 1112
Second breakpoint 1114
3rd breakpoint 1116
4th breakpoint 1118
First radiant section 22
Second radiant section 24
3rd radiant section 26
Metal galianconism A1
The long-armed A2 of metal
First feeding portion 12
First grounding parts 27
Second grounding parts 28
Second feeding portion 13
First radiant body 15
3rd grounding parts 152
Second radiant body 16
4th feeding portion 17
First radiation arm 161
Second radiation arm 162
3rd radiation arm 163
4th radiation arm 164
5th radiation arm 165
4th grounding parts 166
3rd radiant body 18
5th feeding portion 19
5th grounding parts 182
Switching circuit 20
Switch unit 222
Switching device 224
Radio communication device 200
Display unit 201
Rearmounted twin-lens 202
Receiver 203
Perforate 204,205
Preposition camera lens 207
Circuit board 210
Embodiment 2
Antenna structure 300
Metalwork 31
Metal front frame 311
Metal backing 312
Metal edge frame 313
Accommodation space 314
Top 315
First sidepiece 316
Second sidepiece 317
Fluting 318
First breakpoint 3112
Second breakpoint 3114
3rd breakpoint 3116
First radiant section 42
Second radiant section 44
Metal galianconism B1
The long-armed B2 of metal
First feeding portion 32
First arm 322
Second arm 324
3rd arm 326
First grounding parts 33
Second grounding parts 34
Second feeding portion 35
4th arm 352
5th arm 354
6th arm 356
7th arm 358
3rd grounding parts 36
Radiant body 37
3rd feeding portion 38
4th grounding parts 39
First switching circuit 46
Second switching circuit 47
Switch unit 462
Switching device 464
Radio communication device 400
Display unit 401
Rearmounted twin-lens 402
Receiver 403
Perforate 404,405
Preposition camera lens 407
Circuit board 410
Embodiment 3
Antenna structure 500
Metalwork 51
Metal front frame 511
Metal backing 512
Metal edge frame 513
Accommodation space 514
Bottom 515
First sidepiece 516
Second sidepiece 517
Fluting 518
Perforate 5182,5183
First breakpoint 5112
Second breakpoint 5114
Radiant section 62
Metal galianconism C1
The long-armed C2 of metal
First feeding portion 52
First grounding parts 53
First arm 532
Second arm 534
3rd arm 536
Second grounding parts 54
Extension 55
Radiant body 56
4th arm 562
5th arm 564
6th arm 566
Second feeding portion 57
3rd grounding parts 58
Feed-in source 59
Match circuit 64
First impedor 641
Second impedor 642
3rd impedor 643
4th impedor 644
5th impedor 645
First switching circuit 66
Second switching circuit 67
Switch unit 662
Switching device 664
Radio communication device 600
Display unit 601
Earphone socket 602
USB connector 603
Circuit board 610
Following embodiment will combine above-mentioned accompanying drawing and further illustrate the present invention.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete
Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, rather than whole embodiments.It is based on
Embodiment in the present invention, those of ordinary skill in the art are obtained every other under the premise of creative work is not made
Embodiment, belong to the scope of protection of the invention.
It should be noted that when an element is referred to as " electrically connecting " another element, it can be directly in another yuan
On part or there may also be element placed in the middle.When an element is considered as " electrical connection " another element, it can be connect
Connection is touched, for example, it may be the mode of wire connection or contactless connection, for example, it may be contactless coupling
Mode.
Unless otherwise defined, all of technologies and scientific terms used here by the article is with belonging to technical field of the invention
The implication that technical staff is generally understood that is identical.Term used in the description of the invention herein is intended merely to description tool
The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term as used herein " and/or " include one or more phases
The arbitrary and all combination of the Listed Items of pass.
Below in conjunction with the accompanying drawings, some embodiments of the present invention are elaborated.It is following in the case where not conflicting
Feature in embodiment and embodiment can be mutually combined.
Embodiment 1
Referring to Fig. 1, the first better embodiment of the invention provides a kind of antenna structure 100, it can be applied to mobile electricity
In the radio communication devices such as words, personal digital assistant 200, to launch, receive radio wave to transmit, exchange wireless signal.
Also referring to Fig. 2 and Fig. 3, the antenna structure 100 includes metalwork 11, the first feeding portion 12, the second feed-in
Portion 13, the 3rd feeding portion 14, the first radiant body 15, the second radiant body 16, the 4th feeding portion 17, the feedback of the 3rd radiant body the 18, the 5th
Enter the switching circuit 20 (ginseng Fig. 4) of portion 19 and first.
The metalwork 11 can be the shell of the radio communication device 200.The metalwork 11 includes metal front frame
111st, metal backing 112 and metal edge frame 113.The metal front frame 111, metal backing 112 and metal edge frame 113 can be one
Body formed.The metal front frame 111, metal backing 112 and metal edge frame 113 form the radio communication device 200
Shell.An opening (figure is not marked) is provided with the metal front frame 111, for housing the display of the radio communication device 200
Unit 201.It is appreciated that the display unit 201 has a display plane, the display plane is exposed to the opening, and this is aobvious
Show that plane is arranged substantially in parallel with the metal backing 112.
The metal backing 112 is oppositely arranged with the metal front frame 111.The metal backing 112 and metal edge frame 113
It is directly connected to.There is no space between the metal backing 112 and metal edge frame 113.What the metal backing 112 was formed in one
Single sheet metal.The metal backing 112 for appear rearmounted twin-lens 202 and the grade element of receiver 203 set perforate 204,
205.The metal backing 112 does not set any fluting, broken string for splitting the insulation of the metal backing 112 thereon
Or breakpoint (Fig. 2 please be join).The metal backing 112 can be as the ground of the antenna structure 100.
The metal edge frame 113 is located between the metal front frame 111 and the metal backing 112, and is surround respectively
The periphery of the metal front frame 111 and the metal backing 112 set, with the display unit 201, the metal front frame
111 and metal backing 112 surround an accommodation space 114 jointly.The accommodation space 114 fills to the accommodating radio communication
Put the electronic components such as 200 circuit board 210, processing unit or circuit module in the inner.In the present embodiment, the electronic component is extremely
Include rearmounted twin-lens 202, the receiver 203 and the preposition camera lens 207 less, it is the rearmounted twin-lens 202, described called
Device 203 and preposition camera lens 207 side by side and are arranged at intervals at the circuit board 210 of the radio communication device 200.
The metal edge frame 113 comprises at least top 115, the first sidepiece 116 and the second sidepiece 117.The top 115
Connect the metal front frame 111 and the metal backing 112.First sidepiece 116 is relative with second sidepiece 117 to be set
Put, both are respectively arranged at the both ends at the top 115, and preferred vertical is arranged at the both ends at the top 115.First side
Portion 116 is also connected the metal front frame 111 and the metal backing 112 with second sidepiece 117.The metal edge frame 113
On be further opened with fluting 118.In the present embodiment, the fluting 118 is laid on the top 115, and extends respectively to institute
State the first sidepiece 116 and the second sidepiece 117.It is appreciated that in other embodiments, the fluting 118 can also be only arranged at institute
Top 115 is stated, and does not extend to any one in the sidepiece 117 of the first sidepiece 116 and second, or the fluting 118
It is arranged at the top 115, and only along one of extending in the sidepiece 117 of the first sidepiece 116 and second.
The top margin of the metal front frame 111 is spaced apart close provided with the first breakpoint 1112 and the second breakpoint 1114, two sides
The top margin offers one the 3rd breakpoint 1116 and one the 4th breakpoint 1118 respectively.3rd breakpoint 1116 and the 4th breakpoint 1118
Respectively positioned at relative two ends of the fluting 118.The breakpoint 1112,1114,1116,1118 connects with the fluting 118
It is logical, and extend to the cut-off metal front frame 111.Four breakpoints mark off three parts from metal front frame 111, this three parts
Including at least the first radiant section 22, the second radiant section 24 and the 3rd radiant section 26.In the present embodiment, first breakpoint 1112
And second breakpoint 1114 be respectively arranged at metal front frame 111 top margin opposite end close to corner, the first radiant section 22
Between the first breakpoint 1112 and the second breakpoint 1114;Second radiant section 24 is located at the first breakpoint 1112 and the 3rd breakpoint
Between 1116, the second radiant section 24 extends to side by the top margin of metal front frame 111, and extends past the metal front frame 111
One arc-shaped corners;3rd radiant section 26 is between the second breakpoint 1114 and the 4th breakpoint 1118, the 3rd radiant section 26
Another side is extended to by the top margin of metal front frame 111, and extends past another arc-shaped corners of the metal front frame 111.Separately
Outside, it is described fluting 118 and the breakpoint 1112,1114,1116,1118 in filled with insulating materials (such as plastic cement, rubber,
Glass, timber, ceramics etc., but be not limited), and then separate first radiant section 22, the radiation of the second radiant section the 24, the 3rd
Section 26 and the remainder of the metalwork 11.
It is appreciated that the first half of metal front frame 111 does not set opening for other insulation again in addition to the breakpoint
Groove, broken string or breakpoint, therefore the first half of the metal front frame 111 just only has four breakpoints 1112,1114,1116,1118, does not have
There are other breakpoints.
First feeding portion 12 can be electrically connected to first radiant section 22 by match circuit (not shown) and more be leaned on
One end of nearly first breakpoint 1112, so as to which the first feeding portion 12 is the feed-in electric current of the first radiant section 22.In the present embodiment, from
After the feed-in electric current of first feeding portion 12, the electric current is in the first radiant section 22 respectively to the breakpoint of the first breakpoint 1112 and second
1114 transmission, so that the first radiant section 22 is that separation is divided into opposite first breakpoint 1112 with first feeding portion 12
Metal galianconism A1 and opposite second the breakpoint 1114 long-armed A2 of metal.In the present embodiment, first feeding portion 12 accesses
Position be not to correspond to the centre of the first radiant section 22, therefore the long-armed A2 of metal length is more than metal galianconism A1 length
Degree.The metal galianconism A1 excites a first mode to produce the radiation signal of the first frequency range, and the long-armed A2 of metal excites one
Second mode is to produce the radiation signal of the second frequency range.In the present embodiment, the first mode is LTE-A intermediate frequency mode, described
First frequency range is 1805-2170MHz frequency ranges;The second mode is LTE-A low frequency modals, and second frequency range is 703-
960MHz frequency ranges.The LTE-A is writing a Chinese character in simplified form for advanced Long Term Evolution (Long Term Evolution Advanced).
First radiant section 22 is additionally coupled to one first grounding parts 27 and one second grounding parts 28.First grounding parts 27
It is located at the both sides of first feeding portion 12 respectively with the second grounding parts 28.First grounding parts 27 and the second grounding parts 28 are big
Cause L-shaped metal arm.
First radiant body 15 is substantially L-shaped, and one arm parallel, spaced-apart is in first grounding parts 27 and connects
One the 3rd grounding parts 152 are connected to, another arm parallel, spaced-apart is in first radiant section 22.First radiant body 15 from
First radiant section 22 couples goes out first frequency range with resonance.In the present embodiment, first radiant section 22, the first feeding portion
12nd, the first grounding parts 27, the second grounding parts 28, the first radiant body 15 and the 3rd grounding parts 152 form the first diversity antenna, described
First diversity antenna resonates out the radiation signal of LTE-A low frequency modals and LTE-A the intermediate frequency mode.
Second feeding portion, the 13 substantially L-shaped metal arm, one end of the second feeding portion 13 are connected to second radiation
Section 24 is close to one end of the 3rd breakpoint 1116.Second radiant section 24 excites one the 3rd from the feed-in electric current of the second feeding portion 13
Mode is to produce the radiation signal of the 3rd frequency range.In the present embodiment, the 3rd mode is GPS mode, and the 3rd frequency range is
1575MHz frequency range.In the present embodiment, the feeding portion 13 of the second radiant section 24 and second composition gps antenna, described GPS days
Line resonates out the radiation signal for covering GPS frequency ranges.
3rd feeding portion, the 14 substantially L-shaped metal arm, one end of the 3rd feeding portion 14 are connected to the 3rd radiation
Section 26 is close to one end of the 4th breakpoint 1118.3rd radiant section 26 excites one the 4th from the feed-in electric current of the 3rd feeding portion 14
Mode is to produce the radiation signal of the 4th frequency range.In the present embodiment, the 4th mode is WiFi 2.4G mode, the described 4th
Frequency range is 2400-2484MHz frequency ranges.In the present embodiment, the 3rd radiant section 26 and the 3rd feeding portion 14 composition the WiFi 2.4G
Antenna, the WiFi 2.4G antenna resonances go out the radiation signal for covering WiFi 2.4G frequency ranges.
Second radiant body 16 is spaced first radiant section 22, the second radiant section 24, the second feeding portion 13 and preposition
Camera lens 207 is set.Second radiant body 16 is arranged at first radiant section 22, the second radiant section 24, the second feeding portion 13
And in the space that is surrounded of preposition camera lens 207.Second radiant body 16 is included in the first radiation arm 161 of vertical bar shape, the
Two radiation arms 162, the 3rd radiation arm 163, the 4th radiation arm 164 and the 5th radiation arm 165.Second radiant body 16 is also electrical
It is connected to the grounding parts 166 of the 4th feeding portion 17 and one the 4th.In the present embodiment, the 4th feeding portion 17 and the 4th is grounded
Portion 166 in vertical bar shape and is parallel to each other.First radiation arm 161 is substantially vertical to be connected to the 4th feeding portion 17 and
Between four grounding parts 166.The vertical connection of second radiation arm 162 to the radiation arm 163 of the first radiation arm 161 and the 3rd it
Between, first radiation arm 161 is parallel to each other with the 3rd radiation arm 163 and from the opposite end of the second radiation arm 162 to opposite
Direction extends.The radiation arm 164 of second radiation arm 162 and the 4th is parallel to each other and by the opposite end of the 3rd radiation arm 163
Extend to equidirectional.The vertical connection of 4th radiation arm 164 to the 3rd radiation arm 163 and the 5th radiation arm 165 it
Between, the 3rd radiation arm 163 is parallel to each other with the 5th radiation arm 165 and from the opposite end of the 4th radiation arm 164 to identical
Direction extends.The length of 5th radiation arm 165 is more than the 3rd radiation arm 163, the length of the 4th radiation arm 164
More than second radiation arm 162.3rd radiation arm 163 is spaced and parallel to second radiant section 24, and the described 4th
Radiation arm 164 is spaced and is spaced parallel to the metal galianconism A1, the 4th feeding portion 17 and parallel to second feed-in
Portion 13.Second radiant body 16 excites one the 5th mode to produce the spoke of the 5th frequency range from the feed-in electric current of the 4th feeding portion 17
Penetrate signal.In the present embodiment, the 5th mode is LET-A high frequency mode, and the 5th frequency range is 2300-2690MHz frequency ranges.
In the present embodiment, second radiant body 16, the 4th feeding portion 17 and the 4th grounding parts 166 form the second diversity antenna, described
Second diversity antenna resonates out the radiation signal of the high-frequency band.
3rd radiant body 18 is spaced the rearmounted twin-lens 202, the 3rd radiant section 26 and the second breakpoint 1114 and set.
3rd radiant body 18 is arranged in the space that the radiant section 26 of rearmounted twin-lens 202 and the 3rd is surrounded.Described 3rd
Radiant body 18 is in vertical bar shape, its interval and parallel to the 3rd radiant section 26.3rd radiant body 18 is electrically connected to institute
State the 5th feeding portion 19 and one the 5th grounding parts 182.In the present embodiment, the 5th feeding portion 19 and the 5th grounding parts 182 are equal
In vertical bar shape and it is parallel to each other.3rd radiant body 18 excites one the 6th mode to produce from the feed-in electric current of the 5th feeding portion 19
The radiation signal of raw 6th frequency range.In the present embodiment, the 6th mode is WiFi 5G mode, and the 6th frequency range is 5150-
5850MHz frequency ranges.In the present embodiment, the 3rd radiant body 18, the 5th feeding portion 19 and the 5th grounding parts 182 composition WiFi
5G antennas, the WiFi 5G antenna resonances go out the radiation signal for covering the WiFi 5G frequency ranges.
Referring to Fig. 4, the switching circuit 20 is arranged on circuit board 210.Described one end of switching circuit 20 is electrically connected with
To second grounding parts 28, the other end is connected to ground plane.The ground plane can be the metal backing 112.Or
A shade for being used to shield electromagnetic interference can be set towards the beyond of metal backing 112 in the display unit 201
(shielding mask) or the support display unit 201 center.The shade or center are made with metal material.It is described
Ground plane can also be the shade or center.The shade or center can be connected with the metal backing 112 to form
Bigger ground plane.The ground plane is the ground of the antenna structure 100.That is, each described grounding parts are straight
Connect or be indirectly connected with succession the ground plane.
The switching circuit 20 includes switch unit 222 and an at least switching device 224.The switching device 224 can be with
For the combination of inductance, electric capacity or inductance and electric capacity.It is parallel with one another between the switching device 224, and its one end is electrically connected to
The switch unit 222, the other end are electrically connected to the ground plane.In this way, the switching by controlling the switch unit 222,
It may be such that the long-armed A2 of the metal switches to different switching devices 224.Because each switching device 224 has different resistances
It is anti-, therefore by the switching of the switch unit 222, can adjust the frequency range of the second mode of the long-armed A2 of metal.Described
Adjustment frequency range is exactly to make the frequency range toward low frequency offset or past high frequency offset.
In the present embodiment, to obtain preferable antenna performance, the width of the fluting 118 may be configured as 3.83 millimeters,
I.e. described first radiant section 22, the second radiant section 24 and the 3rd radiant section 26 are arranged to 3.83 millimeters apart from metal backing 112, with
So that the first radiant section 22, the second radiant section 24 and the 3rd radiant section 26 be away from the metal backing 112, to lift the radiation
The antenna efficiency of section.The width of the breakpoint 1112,1114,1116,1118 is arranged to 2 millimeters, not influence the antenna
The antenna efficiency of the radiant section is further lifted in the case of the overall appearance of structure 100.
In the present embodiment, second radiant body 16 is arranged at intervals at the side of the preposition camera lens 207.Described first connects
Ground portion 27 is arranged at intervals at the opposite side of the preposition camera lens 207.Second grounding parts 28 are arranged at intervals at described rearmounted double
Between camera lens 202 and receiver 203.3rd radiant body 18 is arranged at intervals at the side of the rearmounted twin-lens 202.
Fig. 5 is the current trend schematic diagram when antenna structure 100 works.When electric current enters from first feeding portion 12
After entering first radiant section 22, flowed respectively to two side directions, one of direction is to flow through the metal galianconism A1, cocurrent
To first breakpoint 1112 (ginseng path P 1), while current coupling is to first radiant body 15, its sense of current with it is described
P1 (ginseng path P 2) in opposite direction, current path P1 and P2 inspires the LTE-A intermediate frequencies mode jointly.Electric current is from described first
After feeding portion 12 enters first radiant section 22, to another direction to flow through the long-armed A2 of the metal, and described the is flowed to
Two breakpoints 1114 (ginseng path P 3), and then inspire the LTE-A low frequency modals.Further, since the antenna structure 100 is set
There is switching circuit 20, therefore switch the long-armed A2 of metal LTE-A low frequency modals using the switching circuit 20.Work as electric current
From after second feeding portion 13 enters second radiant section 24, flow through second radiant section 24 and flow to described first and break
Point 1112 (ginseng path P 4), and then inspire the GPS mode.When electric current enters the 3rd spoke from the 3rd feeding portion 14
After penetrating section 26, flow through the 3rd radiant section 26 and flow to second breakpoint 1114 (ginseng path P 5), and then inspire described
WiFi 2.4G mode.After electric current enters the second radiant body 16 from the 4th feeding portion 17, along the second radiant body 16
Bearing of trend flows through second radiant body 16 (ginseng path P 6), and then inspires the LTE-A high frequencies mode.When electric current is from institute
After stating the 5th feeding portion 19 entrance the 3rd radiant body 18, the 3rd radiation is flowed through along the bearing of trend of the 3rd radiant body 18
Body 18 (ginseng path P 7), and then inspire the WiFi 5G mode.
Fig. 6 is echo when the first diversity antenna, the second diversity antenna and gps antenna of the antenna structure 100 work
(Return Loss) curve map is lost.Wherein, curve S1, S2, S3 is return loss when the long-armed A2 of metal works in low frequency
Value, because switching circuit 20 is adjusted in the form of different frequency curves is presented to frequency range.Curve S4 is that the second radiant body 16 works
Return loss value when high frequency (2300-2690MHz).Curve S5 is that the second radiant section 24 works in GPS frequency range (centre frequencies
For 1575MHz) when return loss value.
Return loss when Fig. 7 is the WiFi 2.4G antennas and WiFi 5G Antenna Operations of the antenna structure 100
(Return Loss) curve map.Wherein, curve S6 is that the 3rd radiant section 26 works in WiFi 2.4G frequency ranges (2400-
Return loss value when 2484MHz).When curve S7 is that the 3rd radiant body 18 works in WiFi 5G frequency ranges (5150-5850MHz)
Return loss value.
Fig. 8 is efficiency when the first diversity antenna, the second diversity antenna and gps antenna of the antenna structure 100 work
Curve map.Wherein, curve S81, S82, S83 is radiation efficiency when the long-armed A2 of metal works in low frequency, due to switching circuit 20
To frequency range adjustment in the form of different frequency curves is presented.Curve S84 is radiation effect when the first diversity antenna works in intermediate frequency
Rate.S85 is radiation efficiency when the second radiant body 16 works in high frequency (2300-2690MHz).Curve S86 is the second radiant section
24 work in radiation efficiency during GPS frequency ranges (centre frequency 1575MHz).
Efficiency curve diagram when Fig. 9 is the WiFi 2.4G antennas and WiFi 5G Antenna Operations of the antenna structure 100.
Wherein, curve S87 is radiation efficiency when the 3rd radiant section 26 works in WiFi 2.4G frequency ranges (2400-2484MHz).Curve
S88 is radiation efficiency when the 3rd radiant body 18 works in WiFi 5G frequency ranges (5150-5850MHz).
Obviously, it was found from Fig. 5 to Fig. 8, the antenna structure 100 is operable with corresponding low frequency band (703-
960MHz), intermediate-frequency band (1805-2170MHz), high-frequency band (2300-2690MHz).In addition, the antenna structure 100 is also
It is operable with GPS frequency ranges (1575MHz), WiFi 2.4G frequency ranges (2244-2484MHz) and WiFi 5G frequency ranges (5150-
5850MHz), that is, covering to basic, normal, high frequency, frequency range is wider, and when the antenna structure 100 works in above-mentioned frequency range,
Its working frequency can meet Antenna Operation design requirement, and have preferable radiation efficiency.
The antenna structure 100 is by setting the metalwork 11, and fluting on the metalwork 11 and breakpoint are all provided with
It is placed on the metal front frame 111 and metal edge frame 113, is not arranged on the metal backing 112 so that the metal back of the body
Plate 112 forms all-metal construction, i.e., fluting, broken string or the breakpoint not insulated on described metal backing 112 so that the gold
Category backboard 112 can avoid due to slot, break or the setting of breakpoint and influence the integrality and aesthetic property of metal backing 112.
Embodiment 2
Referring to Fig. 10, the second better embodiment of the invention provides a kind of antenna structure 300, it can be applied to mobile electricity
In the radio communication devices such as words, personal digital assistant 400, to launch, receive radio wave to transmit, exchange wireless signal.
Also referring to Figure 11 and Figure 12, the antenna structure 300 connects including metalwork 31, the first feeding portion 32, first
Ground portion 33, the second grounding parts 34, the second feeding portion 35, the 3rd grounding parts 36, radiant body 37, the 3rd feeding portion the 38, the 4th ground connection
Portion 39, the first switching circuit 46 and the second switching circuit 47 (ginseng Figure 13).
The metalwork 31 can be the shell of the radio communication device 400.The metalwork 31 includes metal front frame
311st, metal backing 312 and metal edge frame 313.The metal front frame 311, metal backing 312 and metal edge frame 313 can be one
Body formed.The metal front frame 311, metal backing 312 and metal edge frame 313 form the radio communication device 400
Shell.An opening (figure is not marked) is provided with the metal front frame 311, for housing the display of the radio communication device 400
Unit 401.It is appreciated that the display unit 401 has a display plane, the display plane is exposed to the opening, and this is aobvious
Show that plane is arranged substantially in parallel with the metal backing 312.
The metal backing 312 is oppositely arranged with the metal front frame 311.The metal backing 312 and metal edge frame 313
It is directly connected to.There is no space between the metal backing 312 and metal edge frame 313.What the metal backing 312 was formed in one
Single sheet metal.The metal backing 312 sets perforate 404,405 to appear rearmounted twin-lens 402 with receiver 403.Institute
State metal backing 312 and any fluting, broken string or breakpoint for being used to split the insulation of the metal backing 312 is not set thereon
(Figure 11 please be join).The metal backing 312 can be as the ground of the antenna structure 300.
The metal edge frame 313 is located between the metal front frame 311 and the metal backing 312, and is surround respectively
The periphery of the metal front frame 311 and the metal backing 312 set, with the display unit 401, the metal front frame
311 and metal backing 312 surround an accommodation space 314 jointly.The accommodation space 314 fills to the accommodating radio communication
Put the electronic components such as 400 circuit board 410, processing unit or circuit module in the inner.In the present embodiment, the electronic component is extremely
Include rearmounted twin-lens 402, the receiver 403 and the preposition camera lens 407 less, it is the rearmounted twin-lens 402, described called
Device 403 and preposition camera lens 407 side by side and are arranged at intervals on circuit board 410.
The metal edge frame 313 comprises at least top 315, the first sidepiece 316 and the second sidepiece 317.The top 315
Connect the metal front frame 311 and the metal backing 312.First sidepiece 316 is relative with second sidepiece 317 to be set
Put, both are respectively arranged at the both ends at the top 315, and preferred vertical is arranged at the both ends at the top 315.First side
Portion 316 is also connected the metal front frame 311 and the metal backing 312 with second sidepiece 317.The metal edge frame 313
On be further opened with fluting 318.In the present embodiment, the fluting 318 is laid on the top 315, and extends respectively to institute
State the first sidepiece 316 and the second sidepiece 317.It is appreciated that in other embodiments, the fluting 318 can also be only arranged at institute
Top 315 is stated, and does not extend to any one in the sidepiece 317 of the first sidepiece 316 and second, or the fluting 318
The top 315 is arranged at, and only edge extends to one of described sidepiece 317 of first sidepiece 316 and second.
Two sides of the metal front frame 311 respectively symmetrically offer one first breakpoint 3112 and one the 3rd close to the top margin
Breakpoint 3116, top margin offer the second breakpoint 3114.The breakpoint 3116 of first breakpoint 3112 and the 3rd is opened positioned at described respectively
Relative two ends of groove 318.The breakpoint 3112,3114,3116 connects with the fluting 318, and extends to described in cut-off
Metal front frame 311.Metal front frame 311 is divided into two parts by three breakpoints, including at least the first radiant section 42 and
Two radiant sections 44.In the present embodiment, second breakpoint 3114 is arranged at one end of the top margin of metal front frame 311 close to turning
Place, the first radiant section 42 is between the second breakpoint 3114 and the 3rd breakpoint 3116, and the first radiant section 42 is by metal front frame 311
Top margin extends to a side, and extends past an arc-shaped corners of the metal front frame 311;Second radiant section 44 is positioned at the
Between one breakpoint 3112 and the second breakpoint 3114, the second radiant section 44 extends to another side by the top margin of metal front frame 311, and
Extend past another arc-shaped corners of the metal front frame 311.The length of first radiant section 42 is more than the length of the second radiant section 44
Degree.In addition, it is described fluting 318 and the breakpoint 3112,3114,3116 in filled with insulating materials (such as plastic cement, rubber,
Glass, timber, ceramics etc., but be not limited), and then separate first radiant section 42, the second radiant section 44 and the gold
Belong to the other parts of part 31.
It is appreciated that the first half of metal front frame 311 does not set opening for other insulation again in addition to the breakpoint
Groove, broken string or breakpoint, therefore the first half of the metal front frame 311 just only has three breakpoints 3112,3114,3116, without it
His breakpoint.
One end of first feeding portion 32 is electrically connected to first radiant section 42 and is closer to the second breakpoint 3114
One end.The other end of first feeding portion 32 is electrically connected to feed-in source (not shown) and thinks the feed-in electric current of the first radiant section 42.
In the present embodiment, after the feed-in electric current of the first feeding portion 32, the electric current is in the first radiant section 42 respectively to second breakpoint
3114 and the 3rd breakpoint 3116 transmit so that the first radiant section 42 with first feeding portion 32 be separation be divided into it is opposite should
The metal galianconism B1 of second breakpoint 3114 and opposite 3rd the breakpoint 3116 long-armed B2 of metal.In the present embodiment, described
The position of one feeding portion 32 access is not the centre for corresponding to the first radiant section 42, therefore the long-armed B2 of metal length is more than
Metal galianconism B1 length.
First radiant section 42 is additionally coupled to one first grounding parts 33 and one second grounding parts 34.First grounding parts 33
It is located at the both sides of first feeding portion 32 respectively with the second grounding parts 34.Figure 11 and 13 is referred to, first grounding parts 33 connect
To metal galianconism B1, second grounding parts 34 are connected to the long-armed B2 of the metal.First feeding portion 32 includes the first arm
322nd, the second arm 324 and the 3rd arm 326.Second arm 324 is substantially u-shaped, its both ends be respectively perpendicular connect first arm 322 and
3rd arm 326.The arm 324 of first arm 322 and second be spaced first radiant section 42 set, the 3rd arm 326 connection this second
The radiant section 42 of arm 324 and first.The grounding parts 34 of first grounding parts 33 and second are substantially L-shaped metal arm.
The metal galianconism B1 excites a first mode to produce the radiation signal of the first frequency range, and the long-armed B2 of metal swashs
A second mode is sent out to produce the radiation signal of the second frequency range, the long-armed B2 of metal and metal galianconism B1 excites one the 3rd jointly
Mode is to produce the radiation signal of the 3rd frequency range.In the present embodiment, the first mode is LTE-A intermediate frequency mode, described first
Frequency range is 1575-2170MHz frequency ranges;The second mode is LTE-A low frequency modals, and second frequency range is 703-960MHz frequencies
Section;3rd mode is a GPS mode, and the 3rd frequency range is 1575MHz frequency ranges.First radiant section 42, first is presented
It is common to enter portion 32, the first grounding parts 33 and the second grounding parts 34 composition the first diversity/gps antenna, first diversity/gps antenna
Shake the radiation signal of the LTE-A low frequency modals, LTE-A intermediate frequencies mode and GPS mode.
The switching circuit 47 of first switching circuit 46 and second may be contained within circuit board 410.Also referring to Figure 14,
Described one end of first switching circuit 46 is electrically connected to first grounding parts 33, and the other end is connected to ground plane.Described second
The one end of switching circuit 47 is electrically connected to second grounding parts 34, and the other end is connected to ground plane.The ground plane can be
The metal backing 312.Or it is used to shield for settable one towards the beyond of metal backing 312 in the display unit 401
The shade (shielding mask) of electromagnetic interference or the center of the support display unit 401.The shade or center are with gold
Belong to material to make.The ground plane can also be the shade or center.The shade or center can be with the metal backings
312 are connected to form bigger ground plane.The ground plane is the ground of the antenna structure 300.That is, described is every
One grounding parts ground plane connected directly or indirectly.
First switching circuit 46 includes switch unit 462 and an at least switching device 464.The switching device 464
It can be the combination of inductance, electric capacity or inductance and electric capacity.It is parallel with one another between the switching device 464, and its one end is electrically connected
The switch unit 462 is connected to, the other end is electrically connected to ground plane.In this way, the switching by controlling the switch unit 462,
It may be such that the metal galianconism B1 switches to different switching devices 464.Because each switching device 464 has different resistances
It is anti-, therefore by the switching of the switch unit 462, can adjust the frequency range of the first mode of the metal galianconism B1.Described
Adjustment frequency range is exactly to make the frequency range toward low frequency offset or past high frequency offset.The structure of second switching circuit 47 and the first switching
Circuit 46 is roughly the same, the frequency range of the second mode for adjusting the long-armed B2 of the metal.Adjusted by the second switching circuit 47
Appropriate matching impedance value so that the LTE-A low frequency modals can cover 703-804MHz, 824-894MHz and 880-960MHz
Frequency range.
One end of second feeding portion 35 is connected to second radiant section 44 close to one end of the first breakpoint 3112.Institute
Stating the second feeding portion 35 includes the 4th arm 352, the 5th arm 354, the 6th arm 356 and the 7th arm 358.3rd grounding parts 36 are big
Cause in vertical bar shaped metal arm and connect the ground plane.4th arm 352 is spaced and be arranged in parallel with the 3rd grounding parts 36, institute
The 5th arm 354 is stated to be connected between the 4th arm 352 and the 3rd grounding parts 36.6th arm 356 is substantially u-shaped, its both ends point
The 5th arm 354 and the 7th arm 358 are not connected, and one end of the 6th arm 356 the 5th arm 354 of connection is also connected with the 4th arm
352, and it is conllinear with the 5th arm 354.4th arm 352, the 5th arm 354, the 6th arm 356 and the 3rd grounding parts 36 with this second
Radiant section 44 is arranged at intervals, and the 7th arm 358 is connected between the 6th arm 356 and the second radiant section 44.Second radiation
Section 44 excites one the 4th mode to produce the radiation signal of the 4th frequency range from the feed-in electric current of the second feeding portion 35.In the present embodiment,
4th mode is LTE-A high frequency mode, and the 4th frequency range is 2300-2690MHz frequency ranges.Wherein, the 4th mode
Including one the 5th mode, the 5th mode is WiFi 2.4G mode, i.e. the 4th frequency range covers one the 5th frequency range, the described 5th
Frequency range is WiFi 2.4G frequency ranges, and the WiFi 2.4G frequency ranges are 2400-2484MHz.In the present embodiment, second radiant section
44th, the second feeding portion 35 and the 3rd grounding parts 36 composition the second diversity/WiFi 2.4G antennas, resonate out it is described cover it is high again and again
The radiation signal of section and WiFi 2.4G frequency ranges.
The radiant body 37 is arranged between rearmounted twin-lens 402, the long-armed B2 of metal and the 3rd breakpoint 3116, and the spoke
Beam 37 is spaced rearmounted twin-lens 402, the long-armed B2 of metal is set with the 3rd breakpoint 3116.The radiant body 37, the 3rd feeding portion
38 and the 4th grounding parts 39 be in vertical bar shape, wherein the 3rd feeding portion 38 and the 4th grounding parts 39 are spaced and be arranged in parallel, radiation
Body 37 is connected to the top margin extension of the same side of the 3rd feeding portion 38 and the 4th grounding parts 39 and the opposite metal front frame 311.Institute
State the 4th grounding parts 39 and connect the ground plane.The radiant body 37 excites one the 6th mould from the feed-in electric current of the 3rd feeding portion 38
State is to produce the radiation signal of the 6th frequency range.In the present embodiment, the 6th mode is WiFi 5G mode, the 6th frequency range
For 5150-5850MHz frequency ranges.In the present embodiment, the radiant body 37, the 3rd feeding portion 38 and the 4th grounding parts 39 composition WiFi
5G antennas, the WiFi 5G antenna resonances go out the radiation signal for covering the WiFi 5G frequency ranges.
In the present embodiment, to obtain preferable antenna performance, the width of the fluting 318 may be configured as 3.83 millimeters,
I.e. described first radiant section 42, the second radiant section 44 are arranged to 3.83 millimeters apart from metal backing 312, the width of the fluting 318
Adjustable extent be 3~4.5 millimeters, to cause the first radiant section 42, the second radiant section 44 away from the metal backing 312, with
Lift the antenna efficiency of the radiant section.The width of the breakpoint 3112,3114,3116 is arranged to 2 millimeters, the breakpoint 3112,
3114th, the adjustable extent of 3116 width is 1.5~2.5 millimeters, not influence the overall appearance of the antenna structure 300
In the case of further lift the antenna efficiency of the radiant section.
Figure 13 is the current trend schematic diagram when antenna structure 300 works.When electric current is from first feeding portion 32
Into after first radiant section 42, to be flowed respectively to two side directions, one of direction is to flow through the metal galianconism B1, and
The grounding parts 33 (ginseng path P 1) of the second breakpoint 3114 and first are flowed to, and then inspire the LTE-A intermediate frequencies mode.Electric current
From after first feeding portion 32 enters first radiant section 42, to another direction to flow through the long-armed B2 of the metal, and
The 3rd breakpoint 3116 and the second grounding parts 34 (ginseng path P 2) are flowed to, and then inspire the LTE-A low frequency modals.Separately
Outside, electric current is from after first feeding portion 32 enters first radiant section 42, respectively along metal galianconism B1 to the second breakpoint
3114 and flowed along the long-armed B2 of metal to the direction of the 3rd breakpoint 3116, and flow (ginseng path P 3) to the second grounding parts 34 simultaneously,
And then inspire the GPS mode.After electric current enters the second radiant section 44 from second feeding portion 35, flow through described
Second radiant section 44 simultaneously flows to second breakpoint 3114 (ginseng path P 4), so inspire the LTE-A high frequencies mode and
WiFi 2.4G mode.After electric current enters radiant body 37 from the 3rd feeding portion 38, along the bearing of trend of radiant body 37
The radiant body 37 (ginseng path P 5) is flowed through, and then inspires the WiFi 5G mode.
When Figure 15 is the first diversity/gps antenna and the second diversity/WiFi 2.4G Antenna Operations of the antenna structure 300
S parameter (scattering parameter) curve map.Wherein, curve S1, S2, S3 is the first diversity/gps antenna and the second diversity/WiFi
2.4G antennas work in low frequency (703- respectively under the frequency range adjustment when the first switching circuit 46 and the second switching circuit 47 switch
960MHz), GPS frequency ranges (1575MHz) and return loss value during intermediate frequency (1575-2170MHz).Curve S4 be the second diversity/
Return loss value of WiFi 2.4G Antenna Operations when WiFi 2.4G frequency ranges.
S ginsengs when Figure 16 is the second diversity/WiFi 2.4G antennas and WiFi 5G Antenna Operations of the antenna structure 300
Number (scattering parameter) curve map.Wherein, curve S5 is the second diversity/WiFi 2.4G Antenna Operations when WiFi 2.4G frequency ranges
Return loss value.Curve S4 in curve S5 and Figure 15 is same curves.Curve S6 is that radiant body 37 works in WiFi 5G frequency ranges
Return loss value when (5150-5850MHz).
When Figure 17 is the first diversity/gps antenna and the second diversity/WiFi 2.4G Antenna Operations of the antenna structure 300
Efficiency curve diagram.Wherein, curve S81, S82, S83 is that the first diversity/gps antenna and the second diversity/WiFi 2.4G antennas exist
The radiation effect of each frequency range is worked under frequency range adjustment during the switching circuit 47 of the first switching circuit 46 and second switching respectively
Rate.
When Figure 18 is the second diversity/WiFi 2.4G antennas and WiFi 5G Antenna Operations of the antenna structure 300
Efficiency curve diagram.Wherein, curve S87 is spoke when the second radiant section 44 works in WiFi 2.4G frequency ranges (2044-2484MHz)
Penetrate efficiency.Curve S88 is radiation efficiency when radiant body 37 works in WiFi 5G frequency ranges (5150-5850MHz).
Obviously, it was found from Figure 14 to Figure 17, first diversity/gps antenna, the second diversity/WiFi 2.4G antennas and
The applicable operating frequency range of WiFi 5G antennas cover low frequency band (703-960MHz), intermediate-frequency band (1575-2170MHz),
High-frequency band (2300-2690MHz).In addition, the antenna structure 300 may also be operated in GPS frequency ranges (1575MHz), WiFi
2.4G frequency ranges (2044-2484MHz) and WiFi 5G frequency ranges (5150-5850MHz), that is, cover to basic, normal, high frequency, frequency model
Enclose relatively extensively, can be applied to GSM Qual-band, UMTS Band I/II/V/VIII frequency ranges, and LTE-A 700/850/900/
The operation of 1800/1900/2100/2300/2500 frequency range, and when the antenna structure 300 works in above-mentioned frequency range, its work
Frequency can meet Antenna Operation design requirement, and have preferable radiation efficiency.
The antenna structure 300 is by setting the metalwork 31, and fluting 318 and breakpoint on the metalwork 31
3112nd, it 3114,3116 may be contained within the metal front frame 311 and metal edge frame 313, be not arranged at the metal backing
On 312 so that the metal backing 312 forms all-metal construction, i.e., on described metal backing 312 not the fluting of insulation,
Broken string or breakpoint so that the metal backing 312 can avoid due to slot, break or the setting of breakpoint and influence metal backing
312 integrality and aesthetic property.
Embodiment 3
Figure 19 is referred to, the 3rd better embodiment of the invention provides a kind of antenna structure 500, and it can be applied to mobile electricity
In the radio communication devices such as words, personal digital assistant 600, to launch, receive radio wave to transmit, exchange wireless signal.
Also referring to Figure 20 and Figure 21, the antenna structure 500 connects including metalwork 51, the first feeding portion 52, first
Ground portion 53, the second grounding parts 54, extension 55, radiant body 56, the second feeding portion 57, the 3rd the grounding parts 58, (ginseng of match circuit 64
Figure 23), the first switching circuit 66 and the second switching circuit 67 (ginseng Figure 24).
The metalwork 51 can be the shell of the radio communication device 600.The metalwork 51 includes metal front frame
511st, metal backing 512 and metal edge frame 513.The metal front frame 511, metal backing 512 and metal edge frame 513 can be one
Body formed.The metal front frame 511, metal backing 512 and metal edge frame 513 form the radio communication device 600
Shell.An opening (figure is not marked) is provided with the metal front frame 511, for housing the display of the radio communication device 600
Unit 601.It is appreciated that the display unit 601 has a display plane, the display plane is exposed to the opening, and this is aobvious
Show that plane is arranged substantially in parallel with the metal backing 512.
The metal backing 512 is oppositely arranged with the metal front frame 511.The metal backing 512 and metal edge frame 513
It is directly connected to.There is no space between the metal backing 512 and metal edge frame 513.What the metal backing 512 was formed in one
Single sheet metal.The metal backing 512 sets perforate and sender to appear the element such as rearmounted twin-lens and receiver.Institute
State metal backing 512 and any fluting, broken string or disconnected for splitting the insulation of the metal backing 512 is not set thereon
Point.The metal backing 512 can be as the ground of the antenna structure 500.
The metal edge frame 513 is located between the metal front frame 511 and the metal backing 512, and is surround respectively
The periphery of the metal front frame 511 and the metal backing 512 set, with the display unit 601, the metal front frame
511 and metal backing 512 surround an accommodation space 514 jointly.The accommodation space 514 fills to the accommodating radio communication
Put the electronic components such as 600 circuit board 610, processing unit or circuit module in the inner.In the present embodiment, the electronic component is extremely
Include the earphone socket 602 and USB connector 603 less.The earphone socket 602 and USB connector 603 are side by side and interval is set
It is placed in the circuit board 610 of the radio communication device 600.
The metal edge frame 513 comprises at least bottom 515, the first sidepiece 516 and the second sidepiece 517.The bottom 515
Connect the metal front frame 511 and the metal backing 512.First sidepiece 516 is relative with second sidepiece 517 to be set
Put, both are respectively arranged at the both ends of the bottom 515, and preferred vertical is arranged at the both ends of the bottom 515.First side
Portion 516 is also connected the metal front frame 511 and the metal backing 512 with second sidepiece 517.The metal edge frame 513
On be further opened with fluting 518.In the present embodiment, the fluting 518 is laid on the bottom 515, and extends respectively to institute
State the first sidepiece 516 and the second sidepiece 517.It is appreciated that in other embodiments, the fluting 518 can also be only arranged at institute
Bottom 515 is stated, and does not extend to any one in the sidepiece 517 of the first sidepiece 516 and second, or the fluting 518
It is arranged at the bottom 515, and only along one of extending in the sidepiece 517 of the first sidepiece 516 and second.
Two sides of the metal front frame 511 respectively symmetrically offer one first breakpoint 5112 and one second breakpoint 5114.
The breakpoint 5114 of first breakpoint 5112 and second is respectively positioned at relative two ends of the fluting 518.The breakpoint 5112,
5114 connect with the fluting 518, and extend to the cut-off metal front frame 511.The metal front frame 511 is located at the first breakpoint
5112 and the second part between breakpoint 5114 form radiant section 62.In the present embodiment, the radiant section 62 is by metal front frame
511 base extends to two sides to both sides respectively, and extends past two arc-shaped corners of the metal front frame 511.In addition,
Filled with insulating materials (such as plastic cement, rubber, glass, timber, ceramics in the fluting 518 and the breakpoint 5112,5114
Deng, but be not limited), and then separate the remainder of the radiant section 62 and the metalwork 51.
The fluting 518 sets two perforates 5182,5183, and the perforate 5182,5183 corresponds to the earphone and inserted respectively
Seat 602 and USB connector 603, the earphone socket 602 and USB connector 603 is partly exposed for connection earphone with
USB device.
It is appreciated that the lower half of metal front frame 511 does not set opening for other insulation again in addition to the breakpoint
Groove, broken string or breakpoint, therefore the lower half of the metal front frame 511 just only has two breakpoints 5112,5114, it is disconnected without other
Point.
One end of first feeding portion 52 is electrically connected to the radiant section 62, and the other end of first feeding portion 52 leads to
Cross the match circuit 64 and feed-in source 59 is electrically connected to (referring to Figure 23), so as to which feed-in source 59 is presented by match circuit 64 and first
It is the feed-in electric current of radiant section 62 to enter portion 52.In the present embodiment, after the feed-in electric current of the first feeding portion 52, the electric current is in spoke
Penetrate section 62 to transmit to the breakpoint 5114 of the first breakpoint 5112 and second respectively, so that radiant section 62 is with first feeding portion 52
It is divided into the metal galianconism C1 of the opposite first breakpoint 5112 and long-armed C2 of metal of opposite second breakpoint 5114 for separation.
In the present embodiment, the position that first feeding portion 52 accesses not is the centre for corresponding to radiant section 62, therefore the metal is grown
Arm C2 length is more than metal galianconism C1 length.
The radiant section 62 is additionally coupled to one first grounding parts 53 and one second grounding parts 54.First grounding parts 53 with
Second grounding parts 54 are located at the both sides of first feeding portion 52 respectively.First grounding parts 53 are connected to metal galianconism C1, should
Second grounding parts 54 are connected to the long-armed C2 of the metal.The substantially L-shaped metal of the grounding parts 54 of first feeding portion 52 and second
Arm.The grounding parts 53 of first feeding portion 52 and first are respectively arranged at the both sides of the earphone socket 602, wherein described first
Grounding parts 53 are set close to the earphone socket 602.The grounding parts 54 of first feeding portion 52 and second are respectively arranged at USB companies
Connect the both sides of device 603.First grounding parts 53 include the first arm 532, the second arm 534 and the 3rd arm 536.Second arm 534
Substantially u-shaped, its both ends, which is respectively perpendicular, connects the arm 536 of the first arm 532 and the 3rd.Second arm 534 surrounds perforate 5182.
The arm 536 of second arm 534 and the 3rd is spaced the radiant section 62 and set, and first arm 532 connects second arm 534 and metal galianconism
C1.3rd arm 536 is connected to the metal backing 512, that is, is grounded.
The extension 55 is arranged within the accommodation space 514.The extension 55 is leaned on by the long-armed C2 of the metal
One end of nearly second breakpoint 5114 extends to the direction away from second breakpoint 5114, and extends beyond described the
Two grounding parts 54.The extension 55 is spaced and parallel to the bottom of the metal front frame 511.
The metal galianconism C1 and the first grounding parts 53 excite a first mode to produce the radiation signal of the first frequency range, institute
State the long-armed C2 of metal and excite a second mode to produce the radiation signal of the second frequency range, the long-armed C2 of metal and the extension
55 excite one the 3rd mode to produce the radiation signal of the 3rd frequency range.In the present embodiment, the first mode is LTE-A intermediate frequency moulds
State, first frequency range are 1710-1990MHz frequency ranges;The second mode is LTE-A low frequency modals, and second frequency range is
703-960MHz frequency ranges;3rd mode is LTE-A intermediate frequency mode, and the 3rd frequency range is 2110-2170MHz frequency ranges.
Figure 23 is referred to, the match circuit 64 is electrically connected between first feeding portion 52 and feed-in source 59.Institute
Match circuit 64 is stated to may be disposed on circuit board 610 with feed-in source 59.The match circuit 64 includes the first impedor
641st, the second impedor 642, the 3rd impedor 643, the 4th impedor 644 and the 5th impedor 645.Described first
Impedor 641, the second impedor 642, the 3rd impedor 643 are sequentially connected in series, the electricity of the first impedor 641
Property is connected to the feed-in source 59, and the 3rd impedor 643 is electrically connected to first feeding portion 52.4th resistance
Anti- one end of element 644 is electrically connected between the first impedor 641 and the second impedor 642, other end ground connection;Described
The one end of five impedor 645 is electrically connected between the second impedor 642 and the 3rd impedor 643, other end ground connection.Institute
Stating radiant section 62 increases the frequency range of the intermediate frequency by the match circuit 64.In the present embodiment, first impedor
641 can be 9.8nH (nanohenry) inductance, and second impedor 642 can be 1.8nH inductance, and the 3rd impedor 643 can
For the electric capacity of 0.8pF (pico farad), the 4th impedor 644 can be 0.87pF electric capacity, and the 5th impedor 645 can be
0.3pF electric capacity.
Figure 24 is referred to, described one end of first switching circuit 66 is electrically connected to second grounding parts 54, and the other end connects
It is connected to ground plane.The ground plane can be the metal backing 512.Or in the display unit 601 towards metal backing
Settable one shade (shielding mask) for being used to shield electromagnetic interference of 512 beyonds or the support display unit
601 center.The shade or center are made with metal material.The ground plane can also be the shade or center.It is described
Shade or center can be connected with the metal backing 512 to form bigger ground plane.The ground plane is the antenna
The ground of structure 500.That is, each described grounding parts ground plane connected directly or indirectly.
First switching circuit 66 includes switch unit 662 and an at least switching device 664.The switching device 664
It can be the combination of inductance, electric capacity or inductance and electric capacity.It is parallel with one another between the switching device 664, and its one end is electrically connected
The switch unit 662 is connected to, the other end is electrically connected to the ground plane.In this way, by controlling cutting for the switch unit 662
Change, may be such that the long-armed C2 of the metal switches to different switching devices 664.Because each switching device 664 has difference
Impedance, therefore pass through the switching of the switch unit 662, can adjust the long-armed C2 of metal second mode frequency range.Institute
The adjustment frequency range stated is exactly to make the frequency range toward low frequency offset or past high frequency offset.Appropriate inductance is adjusted by the first switching circuit 66
The size of value so that the LTE-A low frequency modals can cover 703-804MHz, 824-894MHz and 880-960MHz frequency range.
The structure of second switching circuit 67 is roughly the same with the first switching circuit 66.Described one end of second switching circuit 67 electrically connects
The 3rd grounding parts 58 are connected to, the other end is connected to the ground plane.It is appreciated that connected by adjusting the first grounding parts 53
To metal galianconism C1 position, the frequency height of first mode can adjust.The length bent by adjusting the first grounding parts 53, can
Adjustment matching and the frequency height of first mode.It is appreciated that the length by adjusting extension 55, can adjust the 3rd mode
Frequency range height, the length of the extension 55 is longer, and the frequency of the 3rd mode is lower;Conversely, reduce the length of extension 55,
The frequency of the 3rd mode can then be improved.
The radiant body 56 includes the 4th arm 562, the 5th arm 564 and the 6th arm 566.4th arm 562 is substantially vertical
Ground is connected to the metal backing 512.5th arm 564 is generally perpendicularly connected to the 4th arm 562 away from metal backing 512
One end, and bearing of trend is identical with the bearing of trend of the extension 55, and the spaced and parallel extension 55, the described 5th
Arm 564 extends to the top of the USB connector 603.6th arm, the 566 substantially L-shaped bonding jumper, it is connected to described
Five one end of arm 564 away from the 4th arm 562, the 6th arm 566 turn back the opposite side of 4th arm 562 after being stretched out by the 5th arm 564
To extension, and it is spaced and parallel in the 5th arm 564.The grounding parts 58 of second feeding portion 57 and the 3rd are in strip.Described
Two feeding portions 57 are spaced and parallel 4th arm 562 is set, and are connected to the 5th arm 564.3rd grounding parts 58
Interval and parallel second feeding portion 57, and it is connected to the 5th arm 564.The radiant body 56 is presented from the second feeding portion 57
Enter electric current, excite one the 4th mode to produce the radiation signal of the 4th frequency range.In the present embodiment, the 4th mode is LTE-A
High frequency mode, the 4th frequency range are 2300-2690MHz frequency ranges.
In the present embodiment, to obtain preferable antenna performance, the width of the fluting 518 may be configured as 3-4.5 millimeters, compared with
Goodly, 3.9 millimeters are may be configured as, namely the radiant section 62 is arranged to 3.9 millimeters apart from metal backing 512, to radiate
Section 62 is away from the metal backing 512, to lift the antenna efficiency of the radiant section.The width of the breakpoint 5112,5114 is set
1.5-2.5 millimeters are set to, it is preferred that 2 millimeters are may be configured as, with the feelings for the overall appearance for not influenceing the antenna structure 500
The antenna efficiency of the radiant section is further lifted under condition.The thickness of the metal front frame 511 may be configured as 1.5 millimeters, namely
The thickness of the breakpoint 5112,5114 may be configured as 1.5 millimeters.
Figure 22 is the current trend schematic diagram when antenna structure 500 works.When electric current is from first feeding portion 52
Into after the radiant section 62, flowed respectively to two side directions, one of direction flows to flow through the metal galianconism C1
The grounding parts 53 (ginseng path P 1) of first breakpoint 5112 and first, and then inspire the first mode.Electric current is from described
After one feeding portion 52 enters the radiant section 62, to another direction to flow through the long-armed C2 of the metal, and described second is flowed to
Breakpoint 5114 (ginseng path P 2), and then inspire the second mode.In addition, described in electric current from first feeding portion 52 entrance
After radiant section 62, to another direction to flow through the long-armed C2 of the metal, and second breakpoint 5114 is flowed to, and further flow
To the extension 55 (ginseng path P 3), and then inspire the 3rd mode.When electric current enters from second feeding portion 57
After the radiant body 56, along the bearing of trend of radiant body 56, and the 3rd grounding parts 58 (ginseng path P 4) are flowed through, and then excite
Go out the 4th mode.
Figure 25 is S parameter (scattering parameter) curve map when antenna structure 500 works in each frequency range.
Figure 26 is the radiation efficiency curve figure when antenna structure 500 works in each frequency range.
Obviously, the applicable operating frequency range of the antenna structure 500 cover LTE-A low frequency bands (703-960MHz),
LTE-A intermediate-frequency bands (1710-1990MHz), LTE-A intermediate-frequency bands (2110-2170MHz), LTE-A high-frequency bands (2300-
2690MHz), frequency range is wider, can be applied to the operation of multiple frequency range, and when the antenna structure 500 works in above-mentioned frequency
Duan Shi, its working frequency can meet Antenna Operation design requirement, and have preferable radiation efficiency.
The antenna structure 500 is by setting the metalwork 51, and fluting on the metalwork 51 and breakpoint are all provided with
It is placed on the metal front frame 511 and metal edge frame 513, is not arranged on the metal backing 512 so that the metal back of the body
Plate 512 forms all-metal construction, i.e., fluting, broken string or the breakpoint not insulated on described metal backing 512 so that the gold
Category backboard 512 can avoid due to slot, break or the setting of breakpoint and influence the integrality and aesthetic property of metal backing 512.
The antenna structure of the antenna structure 100 of embodiments of the invention 1, the antenna structure 300 of embodiment 2 and embodiment 3
500 can be applicable to same radio communication device.Such as antenna structure 100 or antenna structure 300 are arranged on the radio communication
The top of device is arranged on the lower section of the radio communication device as primary antenna as slave antenna, and using antenna structure 500.When this
When radio communication device sends wireless signal, the radio communication device sends wireless signal using the primary antenna.When this is wireless
When communicator receives wireless signal, the radio communication device receives wireless signal using the primary antenna together with slave antenna.
Embodiment of above is merely illustrative of the technical solution of the present invention and unrestricted, although the preferable embodiment party with reference to more than
The present invention is described in detail formula, it will be understood by those within the art that, can be to technical scheme
Modify or equivalent substitution should not all depart from the spirit and scope of technical solution of the present invention.Those skilled in the art can also be at this
The design that other changes etc. are used in the present invention is done in spirit, without departing from the technique effect of the present invention.These
The change done according to present invention spirit, it should all be included within scope of the present invention.
Claims (18)
1. a kind of antenna structure, including metalwork, the first feeding portion, the first grounding parts and the second grounding parts, the metalwork bag
Metal front frame, metal backing and metal edge frame are included, the metal edge frame is located in the metal front frame and the metal backing
Between, the metal edge frame comprises at least top, the first sidepiece and the second sidepiece, first sidepiece and second sidepiece
The both ends at the top are connected respectively, and fluting is offered on the metal edge frame, the fluting is at least laid on the top,
It is characterized in that:The second breakpoint and the 3rd breakpoint are opened up in the metal front frame, second breakpoint is located at the two of the fluting
Between individual end, the 3rd breakpoint is located at an end of the fluting, and second breakpoint and the 3rd breakpoint are opened with described
Groove connects and extends to the cut-off metal front frame, wherein the metal front frame between the second breakpoint and the 3rd breakpoint forms the
One radiant section, first feeding portion, the first grounding parts and the second grounding parts are electrically connected to first radiant section, and described
One feeding portion is between first grounding parts and the second grounding parts, the first feeding portion feed-in electric current to first spoke
Section is penetrated, the electric current simultaneously flows to second breakpoint and first grounding parts to excite the first frequency range along first radiant section
Radiation signal, the electric current is along first radiant section to the 3rd breakpoint and second grounding parts to excite the second frequency
The radiation signal of section, the electric current also flow to second breakpoint, the 3rd breakpoint and the second grounding parts along first radiant section
To excite the radiation signal of the 3rd frequency range, the frequency of first frequency range is higher than the frequency of the 3rd frequency range, the frequency of the 3rd frequency range
Higher than the frequency of the second frequency range.
2. antenna structure as claimed in claim 1, it is characterised in that:Insulation material is filled with the fluting and the breakpoint
Material.
3. antenna structure as claimed in claim 1, it is characterised in that:The first breakpoint is also opened up in the metal front frame, it is described
First breakpoint is located at another end relative with the 3rd breakpoint of the fluting.
4. antenna structure as claimed in claim 3, it is characterised in that:First breakpoint, the second breakpoint and the 3rd breakpoint are certainly
The metal front frame marks off first radiant section and the second radiant section, and the second radiant section is located at the first breakpoint and the second breakpoint
Between;The length of first radiant section is more than the length of the second radiant section.
5. antenna structure as claimed in claim 4, it is characterised in that:First feeding portion is electrically connected to first radiation
Section is divided into the metal of opposite second breakpoint using first feeding portion as separation close to one end of the second breakpoint, the first radiant section
The metal of galianconism and opposite 3rd breakpoint is long-armed, and the long-armed length of metal is more than the length of metal galianconism.
6. antenna structure as claimed in claim 5, it is characterised in that:The metal galianconism excites a first mode to produce
The radiation signal of the first frequency range is stated, the metal is long-armed to excite a second mode to produce the radiation signal of second frequency range,
The metal is long-armed to excite one the 3rd mode to produce the radiation signal of the 3rd frequency range jointly with metal galianconism;The first mode
For LTE-A intermediate frequency mode, first frequency range is 1805-2170MHz frequency ranges;The second mode is LTE-A low frequency modals, institute
It is 703-960MHz frequency ranges to state the second frequency range;3rd mode is GPS mode, and the 3rd frequency range is 1575MHz frequency ranges.
7. antenna structure as claimed in claim 5, it is characterised in that:The antenna structure also includes the first switching circuit and the
Two switching circuits, first grounding parts are connected to ground plane by first switching circuit, and second grounding parts pass through
Second switching circuit is connected to ground plane.
8. antenna structure as claimed in claim 7, it is characterised in that:First switching circuit is including switch unit and at least
One switching device, first switch unit are electrically connected to first grounding parts, parallel with one another between the switching device, and
Its one end is electrically connected to the switch unit, and the other end is connected to ground plane, by the switching for controlling the switch unit so that
The switch unit switches to different switching devices, and then adjusts first frequency range;The structure of second switching circuit
The second roughly the same with the first switching circuit, long-armed for adjusting metal frequency range.
9. antenna structure as claimed in claim 4, it is characterised in that:First feeding portion include the first arm, the second arm and
3rd arm;Second arm is substantially u-shaped, and its both ends, which is respectively perpendicular, connects first arm and the 3rd arm;First arm and the second arm
First radiant section setting is spaced, the 3rd arm connects second arm and the first radiant section;First grounding parts connect with second
Ground portion is substantially L-shaped metal arm.
10. antenna structure as claimed in claim 4, it is characterised in that:The antenna structure also includes the second feeding portion and the
Three grounding parts, one end of second feeding portion are connected to second radiant section close to one end of the first breakpoint;Described second
Feeding portion includes the 4th arm, the 5th arm, the 6th arm and the 7th arm;3rd grounding parts substantially in vertical bar shaped metal arm and connect
To ground plane;4th arm and the 3rd grounding parts interval and it be arranged in parallel, the 5th arm is connected to the 4th arm and connect with the 3rd
Between ground portion, the 6th arm is substantially u-shaped, and its both ends connects the 5th arm and the 7th arm respectively, and the 6th arm connection the
One end of five arms is also connected with the 6th arm, and conllinear with the 6th arm;4th arm, the 5th arm, the 6th arm and the 3rd grounding parts
It is arranged at intervals with second radiant section, the 7th arm is connected between the 6th arm and the second radiant section.
11. antenna structure as claimed in claim 10, it is characterised in that:Second radiant section is electric from the second feeding portion feed-in
Stream, excites one the 4th mode to produce the radiation signal of the 4th frequency range;4th mode is LTE-A high frequency mode, described
Four frequency ranges are 2300-2690MHz frequency range;4th mode includes one the 5th mode, and the 5th mode is WiFi 2.4G
Mode, i.e. the 4th frequency range cover one the 5th frequency range, and the 5th frequency range is WiFi 2.4G frequency ranges, and the WiFi 2.4G frequency ranges are
2400-2484MHz。
12. antenna structure as claimed in claim 4, it is characterised in that:The antenna structure also includes radiant body, the 3rd feed-in
Portion and the 4th grounding parts, the first radiant section and the 3rd breakpoint setup described in the radiant body interval, the radiant body, the 3rd feed-in
Portion and the 4th grounding parts are in vertical bar shape, wherein the 3rd feeding portion and the 4th grounding parts interval and be arranged in parallel, radiant body connection
In the top extension of the same side of the 3rd feeding portion and the 4th grounding parts and the opposite metal front frame.
13. antenna structure as claimed in claim 12, it is characterised in that:The radiant body from the 3rd feeding portion feed-in electric current,
One the 6th mode is excited to produce the radiation signal of the 6th frequency range;6th mode is WiFi 5G mode, the 6th frequency range
For 5150-5850MHz frequency ranges.
14. antenna structure as claimed in claim 4, it is characterised in that:The width of the fluting is arranged to 3-4.5 millimeters,
I.e. described first radiant section and the second radiant section are apart from metal backing 3-4.5 millimeters;The width of the breakpoint is arranged to 1.5-2.5
Millimeter.
15. antenna structure as claimed in claim 1, it is characterised in that:The metal backing is directly connected to metal edge frame, institute
Stating does not have space between metal backing and metal edge frame, the single sheet metal that the metal backing is formed in one, the metal
Backboard thereon and be not provided with it is any be used for split the metal backing insulation fluting, broken string or breakpoint.
16. a kind of radio communication device, including the antenna structure as any one of claim 1-15.
17. radio communication device as claimed in claim 16, it is characterised in that:It is single that the radio communication device also includes display
Member, the metal front frame, metal backing and metal edge frame form the shell of the radio communication device, and the metal front frame is set
Opening is equipped with to be used to house the display unit, the display unit has display plane, and the display plane is exposed to the opening,
And the display plane be arranged in parallel with the metal backing.
18. radio communication device as claimed in claim 16, it is characterised in that:The radio communication device also includes radiant body
With rearmounted twin-lens, the radiant body is arranged at rearmounted twin-lens, the first width is penetrated between the breakpoints of Duan Yu tri-, and the radiant body
It is spaced rearmounted twin-lens, the first width penetrates the breakpoint setups of Duan Yu tri-.
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CN107681251A (en) | 2018-02-09 |
CN107681249A (en) | 2018-02-09 |
TW201806234A (en) | 2018-02-16 |
TWI653782B (en) | 2019-03-11 |
TW201806235A (en) | 2018-02-16 |
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TW201806240A (en) | 2018-02-16 |
CN107681249B (en) | 2019-12-20 |
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