CN102800945A - Antenna and multiple input multiple output (MIMO) antenna with same - Google Patents

Abstract

The invention relates to an antenna, which comprises a dielectric substrate, a first metal sheet and a second metal sheet. The first and second metal sheets are attached to the two opposite surfaces of the dielectric substrate. A first feeder line is arranged in a way of enclosing the first metal sheet. A second feeder line is arranged in a way of enclosing the second metal sheet. A first micro-channel structure and a second micro-channel structure are asymmetrically hollowed in the first metal sheet to form first metal wiring on the first metal sheet. A third micro-channel structure and a fourth micro-channel structure are asymmetrically hollowed in the second metal sheet to form second metal wiring on the second metal sheet. The first and second feeder lines are electrically connected. Spaces are formed in advance in the antenna, and electronic components are embedded into the spaces. According to the antenna, the metal sheets are arranged on the two surfaces of the dielectric substrate, so that the area of the antenna is fully utilized, the antenna can work at low working frequency in such an environment, and the requirements of miniaturization, low working frequency and broadband multimode for the antenna are met. In addition, the invention also relates to a multiple input multiple output (MIMO) antenna with a plurality of antennae.

Description

A kind of antenna and have the MIMO antenna of this antenna

Technical field

The invention belongs to the communications field, particularly, relate to a kind of antenna and have the MIMO antenna of this antenna.

Background technology

The antenna usage space is little, operating frequency is low when running in traditional antenna design, when being operated in problem such as multimode, the performance of antenna will be limited by the antenna volume size greatly.The electrical length that reduces corresponding antenna of antenna volume also will be affected, and antenna radiation efficiency and operating frequency will change.Traditional dipole antenna and PIFA antenna just seem unable to do what one wishes in the face of problems such as existing communicating terminal small size, broadbands the time, design difficulty greatly finally can not satisfy the requirement of use.Traditional antenna is only used the radiation requirement that realizes multimode through the terminated line of outside in the low-frequency range design; In antenna-feedback system, be the job requirement that can realize low frequency, multimode on the function behind the adding matching network, very large part energy is lost on the matching network but its radiation efficiency will reduce greatly.Existing ultra material miniature antenna; Like publication number is the Chinese patent of CN201490337; Integrated novel artificial electromagnetic material in design, so its radiation has profuse dispersion characteristics, can form multiple radiation mode; Can remove loaded down with trivial details impedance matching network from, the impedance matching that this abundant dispersion characteristics are multifrequency point brings great convenience.However existing ultra material miniature antenna has also received great restriction in the process of design in the face of problems such as existing terminal equipment small size, low operating frequency, broadband multimodes the time.

Simultaneously, there are bigger otherness in environment that antenna is worked in Different products and electromagnetic property, will cause antenna performance in design and use, to have bigger difference, so the antenna that requires to design must have stronger adaptability and versatility.In sum, original technique in use will run into the problem of versatility and the poor performance opposite sex.

Summary of the invention

The technical problem that the present invention will solve is; To antenna operational environment and the bigger otherness of electromagnetic property existence in different product; Cause antenna performance in design and use, to have bigger difference, a kind of antenna is provided, this antenna has stronger adaptability and versatility.

The present invention solves the problems of the technologies described above the technical scheme that is adopted: a kind of antenna; Said antenna comprise medium substrate, attached to medium substrate relative two the surface first sheet metal and second sheet metal; Be provided with first feeder line around first sheet metal; Be provided with second feeder line around second sheet metal; Said first feeder line is through said first sheet metal of coupled modes feed-in; Said second feeder line is through said second sheet metal of coupled modes feed-in, and hollow out has asymmetrical first micro groove structure and second micro groove structure on first sheet metal, to form first metal routing on said first sheet metal, and hollow out has asymmetrical the 3rd micro groove structure and the 4th micro groove structure on second sheet metal, to form second metal routing on said second sheet metal; Said first feeder line is electrically connected with second feeder line, and said antenna is preset with the space that electronic component embeds.

Further, said space is arranged between first feeder line, first feeder line and first sheet metal and reaches at least one of these three positions of first sheet metal.

Further, said space is arranged between second feeder line, second feeder line and second sheet metal and reaches at least one of these three positions of second sheet metal.

Further, said space is arranged on first metal routing on first sheet metal, and perhaps said space is arranged on first micro groove structure and/or second micro groove structure.

Further, said space is arranged on second metal routing on second sheet metal, and perhaps said space is arranged on the 3rd micro groove structure and/or the 4th micro groove structure.

Further, said electronic component is perceptual electronic component, capacitive electronic component or resistance.

Further, said space is the pad that is formed on the said antenna.

Further, the scope of said perceptual electronic component inductance value is between 0-5uH.

Further, the scope of said capacitive electronic component capacitance is between 0-2pF.

The antenna of embodiment of the present invention; With respect to existing antenna; Has following beneficial effect: through the space that electronic component embeds is set on antenna; Can finely tune the performance of antenna through the performance that changes the electronic component that embeds, design the antenna of the requirement of satisfying adaptability and versatility.In addition, the medium substrate two sides is provided with sheet metal, has made full use of the spatial area of antenna, can under low operating frequency, work at antenna under this environment, satisfies the requirement of antenna miniaturization, low operating frequency, broadband multimode.In addition; Hollow out has asymmetrical first micro groove structure and second micro groove structure on first sheet metal; And hollow out has asymmetrical the 3rd micro groove structure and the 4th micro groove structure on second sheet metal, therefore can produce a plurality of resonance points at an easy rate, and resonance point is difficult for offsetting; Be easy to realize multimode resonance, realize the multimodeization of antenna easily.

Another problem to be solved by this invention provides a kind of MIMO antenna.

The present invention solves the problems of the technologies described above the scheme that is adopted: a kind of MIMO antenna, said MIMO antenna comprises a plurality of above-mentioned antennas.

According to MIMO antenna of the present invention, except the characteristics that possess above-mentioned antenna itself, also have very high isolation, the antijamming capability between a plurality of antennas is strong.

Description of drawings

Fig. 1 is the stereogram of antenna first embodiment of the present invention;

Fig. 2 is another visual angle figure of Fig. 1;

The structural representation of Fig. 3 antenna second embodiment of the present invention;

The structural representation of Fig. 4 antenna the 3rd embodiment of the present invention;

Fig. 5 a is the sketch map of complementary split ring resonator structure;

Fig. 5 b is depicted as the sketch map of complementary helix structure;

Fig. 5 c is depicted as the sketch map of opening helical ring structure;

Fig. 5 d is depicted as the sketch map of two opening helical ring structures;

Fig. 5 e is depicted as the sketch map of complementary folding line structure;

Fig. 6 a is the sketch map of deriving of complementary its geometry of split ring resonator structure shown in Fig. 5 a;

Fig. 6 b is the sketch map of deriving of complementary its expansion of split ring resonator structure shown in Fig. 5 a;

Fig. 7 a is the structural representation behind the complementary split ring resonator structure shown in three Fig. 5 a compound;

Fig. 7 b is the compound sketch map that the complementary split ring resonator structure shown in two Fig. 5 a and Fig. 5 b are depicted as complementary helix structure;

Fig. 8 is the structural representation after the complementary split ring resonator structural group battle array shown in four Fig. 5 a.

Embodiment

Like Fig. 1 and shown in Figure 2; Said antenna of the present invention comprises medium substrate 1, attached to first sheet metal 4 and second sheet metal 7 on relative two surfaces of medium substrate 1; Be provided with first feeder line 2 around first sheet metal 4; Be provided with second feeder line 8 around second sheet metal 7; Said first feeder line 2 is through said first sheet metal 4 of coupled modes feed-in; Said second feeder line 8 is through said second sheet metal 7 of coupled modes feed-in, and hollow out has asymmetrical first micro groove structure 41 and second micro groove structure 42 on first sheet metal, to form first metal routing 43 on said first sheet metal 4, and hollow out has asymmetrical the 3rd micro groove structure 71 and the 4th micro groove structure 72 on second sheet metal, to form second metal routing 73 on said second sheet metal 7; Said first feeder line 2 is electrically connected with second feeder line 8, and said antenna 100 is preset with the space 6 that electronic component embeds.Two sides at same medium substrate all is provided with sheet metal, and being equivalent to has increased antenna physical length (the physical length size does not increase), so just can in minimum space, design the radio-frequency antenna that is operated under the very low operation frequency.Solve the physics limitation of traditional antenna antenna controlled space area when low frequency operation.

Shown in Fig. 1 and 2, said first feeder line 2 is electrically connected through the plated-through hole of on medium substrate 1, opening 10 with second feeder line 8.Can certainly adopt lead to connect.

Among Fig. 1 to Fig. 4, the part of the first sheet metal cross-hatching is first metal routing, the blank parts on first sheet metal (part of hollow out) expression first micro groove structure and second micro groove structure.In addition, first feeder line is also represented with hatching.Same, the part of the second sheet metal cross-hatching is second metal routing, the blank parts on second sheet metal (part of hollow out) expression the 3rd micro groove structure and the 4th micro groove structure.In addition, second feeder line is also represented with hatching.

Shown in Figure 1 is the stereogram of antenna of the present invention, and Fig. 2 is its another visual angle figure.Comprehensive two figure can find out that the structure of adhering on a surface of medium substrate and the b surface is identical.Promptly first feeder line, first sheet metal overlap with second feeder line, second sheet metal respectively in the projection on b surface.Certainly, this is a preferred scheme, and a surface as required also can be different with the surperficial structure of b.

First feeder line 2 is provided with to realize the signal coupling around first sheet metal 4.Other first sheet metal 4 can contact with first feeder line 2, also can not contact.When first sheet metal 4 contacts with first feeder line 2, inductive coupled between first feeder line 2 and first sheet metal 4; When first sheet metal 4 does not contact with first feeder line 2, capacitive coupling between first feeder line 2 and the sheet metal 4.

Second feeder line 8 is provided with to realize the signal coupling around second sheet metal 7.Other second sheet metal 7 can contact with second feeder line 8, also can not contact.When second sheet metal 7 contacts with second feeder line 8, inductive coupled between second feeder line 8 and second sheet metal 7; When second sheet metal 7 does not contact with second feeder line 8, capacitive coupling between second feeder line 8 and the sheet metal 7.

Among the present invention, said medium substrate two apparent surfaces' first sheet metal can be connected with second sheet metal, also can not connect.Under first sheet metal and the unconnected situation of second sheet metal, between said first sheet metal and second sheet metal through capacitively coupled mode feed; In such cases, can realize the resonance of first sheet metal and second sheet metal through the thickness that changes medium substrate.Under the situation that first sheet metal and second sheet metal are electrically connected (for example the form through lead or plated-through hole is connected), between said first sheet metal and second sheet metal through inductive coupled mode feed.

Said first micro groove structure 41 among the present invention, second micro groove structure 42, the 3rd micro groove structure 71, the 4th micro groove structure 72 can be the complementary helix structures shown in the complementary split ring resonator structure shown in Fig. 5 a, Fig. 5 b, a kind of in the two opening helical ring structures shown in the opening helical ring structure shown in Fig. 5 c, Fig. 5 d, the complementary folding line structure shown in Fig. 5 e or through several kinds of structures in front derive, compound or a micro groove structure that the group battle array obtains.Derive and be divided into two kinds; A kind of is that geometry is derived; Another kind is that expansion is derived, and the geometry is here derived and is meant that function class derives like, variform structure, is for example derived to class of a curve structure, triangle class formation and other different polygon class formation by the square frame class formation; The expansion is here derived and promptly on the basis of Fig. 5 a to Fig. 5 e, is offered new groove to form new micro groove structure; Complementary split ring resonator structure with shown in Fig. 5 a is an example, and Fig. 6 a is its geometry sketch map of deriving, and Fig. 6 b is its geometry sketch map of deriving.Compound being meant here, a plurality of stacks of the micro groove structure of Fig. 5 a to Fig. 5 e form a new micro groove structure, shown in Fig. 7 a, are the structural representation of the complementary split ring resonator structure shown in three Fig. 5 a after compound; Shown in Fig. 7 b, be that the complementary split ring resonator structure shown in two Fig. 5 a and Fig. 5 b are depicted as the common structural representation after compound of complementary helix structure.The group battle array here is meant the micro groove structure that is formed an integral body by the micro groove structure array on same sheet metal shown in a plurality of Fig. 5 a to Fig. 5 e, and is as shown in Figure 8, is the structural representation after a plurality of complementary split ring resonator structural group battle arrays shown in Fig. 5 a.

Among the present invention, said space 6 is arranged between first feeder line 2, first feeder line 2 and first sheet metal 4, and at least one of first sheet metal, 4 these three positions on.Said space also be arranged between second feeder line 8, second feeder line 8 and second sheet metal 7 and at least one of second sheet metal, 7 these three positions on.Preferably, a plurality of spaces 6 setting such as Fig. 1 and shown in Figure 2 on antenna, that is, and on a of medium substrate face, between first feeder line 2, first feeder line 2 and first sheet metal 4, and first sheet metal, 4 these three positions on the space that electronic component embeds all is set.Wherein, Space on first sheet metal 4 comprises and is arranged on the space on first metal routing 43 and is arranged on the space on first micro groove structure 41 and second micro groove structure, and is arranged on first metal routing, 43 edges that space 6 on first micro groove structure 41 and second micro groove structure 42 connects both sides respectively.Equally, on the b of medium substrate face, the space that electronic component embeds is being set all between second feeder line 8, second feeder line 8 and second sheet metal 7 and on second sheet metal, 7 these three positions.Wherein, Space on second sheet metal 7 comprises the space that is arranged on second metal routing 73; And be arranged on the space on the 3rd micro groove structure 71 and the 4th micro groove structure 72, and be arranged on second metal routing, 73 edges that space 6 on the 3rd micro groove structure 71 and the 4th micro groove structure 72 connects both sides respectively.。

The reserved location in space is not limited to above-mentioned several kinds of forms on the antenna 100 of the present invention, as long as the space is arranged on the antenna.For example, the space can also be arranged on the medium substrate.

Said electronic component of the present invention is perceptual electronic component, capacitive electronic component or resistance.After in the headspace of antenna, adding this type of electronic component, can improve the various performances of antenna.And, can realize the adjustable of antenna performance parameters through adding the electronic component of different parameters.Adding electronic component in the space can have following several kinds of situations because the b face of medium substrate is identical with a face, so following do explanation with a face:

(1) in the space of first feeder line, adds perceptual electronic component; Using formula:

can know square being inversely proportional to of size and operating frequency of inductance value; So, can realize through suitable embedding inductance or perceptual electronic component when the operating frequency that needs is when hanging down operating frequency.The inductance value range of the perceptual electronic component that adds is preferably between the 0-5uH, because, thereby if the too big alternating signal of inductance value will be had influence on the radiation efficiency of antenna by perceptual electronic component consumption.Certainly also possibly in the space of first feeder line, add resistance to improve the radiation resistance of antenna.Certainly, have also on first feeder line a plurality of spaces can be set, segment space embedded resistor, segment space embed perceptual electronic component, have both realized the adjusting of operating frequency, can improve the radiation resistance of antenna again.Certainly according to other needs, also can only in segment space, add electronic component, the lead short circuit is used in other space.

(2) embed the capacitive electronic component in the space between first feeder line 2 and first sheet metal 4.Here regulate the signal coupling between first feeder line 2 and first sheet metal 4 through embedding the capacitive electronic component; Using formula: can know square being inversely proportional to of size and operating frequency of capacitance; So when the operating frequency that needs is when hanging down operating frequency, can realize through suitable embedding capacitive electronic component.The capacitance scope of the capacitive electronic component that adds is usually between 0-2pF, but the capacitance that embeds along with the variation of operating frequency of antenna also possibly exceed the scope of 0-2pF.Certainly, also can between first feeder line 2 and first sheet metal 4, preset a plurality of spaces, in not being connected with the space of electronic component, adopt the lead short circuit.

(3) embed perceptual electronic component and/or resistance in the space 6 on first metal routing 43 of first sheet metal.The purpose that embeds perceptual electronic component here is the inductance value that increases by the first sheet metal internal resonance structure, thus the effect that the resonance frequency and the bandwidth of operation of antenna played adjusting; The purpose of embedded resistor is to improve the radiation resistance of antenna here.So, then decide as required to embedding perceptual electronic component or resistance.In not embedding the space of electronic component, adopt the lead short circuit in addition.

(4) embed the capacitive electronic component in the space of on first micro groove structure 41 and second micro groove structure 42, reserving 6.Embedding capacitive electronic component can change the resonance performance of first sheet metal, the Q value and the resonance working point of finally improving antenna.As common practise, we know that the relation of passband BW and resonance frequency w0 and quality factor q is: BW=wo/Q, and this formula shows that Q more greatly then passband is narrow more, the more little then passband of Q is wide more.Other has: Q=wL/R=1/wRC, and wherein, Q is a quality factor; Supply frequency when w is circuit resonance; L is an inductance; R is the resistance of string; C is an electric capacity, can be known by the Q=wL/R=1/wRC formula, and Q and C are inverse ratio, therefore, can reduce the Q value through adding the capacitive electronic component, and passband is broadened.

Antenna of the present invention can be the same structure before not adding any element; Just through adding different electronic components at diverse location; And the difference of the parameter of electronic component (inductance value, resistance value, capacitance); Realize the performance parameter of different antennae, promptly realized versatility, therefore can significantly reduce production costs.

Said space of the present invention can be a pad, also can be a vacancy.Pad configuration can be referring to the pad on the common circuit board.Certainly, the needs that the design consideration of its size is different can be different.

In addition, among the present invention, medium substrate can be processed by ceramic material, macromolecular material, ferroelectric material, ferrite material or ferromagnetic material.Preferably, being processed by macromolecular material, can be macromolecular materials such as FR-4, F4B particularly.

Among the present invention, first sheet metal and second sheet metal are copper sheet or silver strip.Be preferably copper sheet, cheap, conduct electricity very well.

Among the present invention, first feeder line, second feeder line are selected for use with first sheet metal and the same material of second sheet metal and are processed.Be preferably copper.

Said among the present invention " asymmetrical first micro groove structure 41 and second micro groove structure 42 " is meant, both do not constitute axially symmetric structure first micro groove structure 41 and second micro groove structure 42.In other words, promptly can not find a symmetry axis, win micro groove structure 41 and second micro groove structure, 42 relative these symmetry axis are symmetrical set on a surface.

In like manner, said among the present invention " asymmetrical the 3rd micro groove structure 41 and the 4th micro groove structure 42 " is meant, both do not constitute axially symmetric structure the 3rd micro groove structure 71 and the 4th micro groove structure 72.In other words, promptly can not find a symmetry axis, make the 3rd micro groove structure 71 and the 4th micro groove structure 72 relative these symmetry axis be symmetrical set on the b surface.

Among the present invention; First micro groove structure 41 and second micro groove structure, 42 structures are asymmetric; Therefore the 3rd micro groove structure 71 and the 4th micro groove structure 72 structures are asymmetric, and two locational electric capacity can be different with inductance, thus at least two different resonance points of generation; And the difficult counteracting of resonance point, help the multimodeization that realizes that antenna is abundant.

The version of first micro groove structure 41 of the present invention and second micro groove structure 42 can be the same, also can be different.And the degree of asymmetry of first micro groove structure 41 and second micro groove structure 42 can be regulated as required.In like manner, the version of the 3rd micro groove structure 71 of the present invention and the 4th micro groove structure 72 can be the same, also can be different.And the degree of asymmetry of the 3rd micro groove structure 71 and the 4th micro groove structure 72 can be regulated as required.Thereby realize abundant adjustable multimode resonance.

And the present invention as required, on a slice sheet metal, more micro groove structure can also be set, so that described antenna has the different resonant more than three.

Concrete, the asymmetric situation among the present invention can have following embodiment.

Shown in Figure 1 is the structural representation of first embodiment of the invention.Fig. 2 is its another visual angle figure.In the present embodiment; As shown in Figure 1; Be in medium substrate a surface first micro groove structure 41 and second micro groove structure 42 its be opening helical ring structure, first micro groove structure 41 and second micro groove structure 42 do not communicate, but the difference of its size causes the asymmetric of the two structure; Equally, as shown in Figure 2, be in medium substrate b surface the 3rd micro groove structure 71 and the 4th micro groove structure 72 its be opening helical ring structure, but the difference of its size causes the asymmetric of the two structure; Make antenna have plural at least resonance frequency.In addition; In the present embodiment; Lip-deep first sheet metal 4 of medium substrate a, first feeder line 2, first micro groove structure 41 and second micro groove structure 42 overlap with second sheet metal 7, second feeder line 8, the 3rd micro groove structure 71 and the 4th micro groove structure 72 respectively in the projection on b surface, and the benefit of doing like this is a simplification technology.

Shown in Figure 3 is the structural representation of second embodiment of the invention.Because the structure on medium substrate b surface is identical with the structure on a surface, so figure has only represented the structure of a face.In the present embodiment; Be in medium substrate a surface first micro groove structure 41 and second micro groove structure 42 its be opening helical ring structure; And has identical size; First micro groove structure 41 and second micro groove structure 42 do not communicate, but because first micro groove structure 41 and 42 the two the locational setting of second micro groove structure cause the asymmetric of the two structure.

Shown in Figure 4 is the structural representation of third embodiment of the invention.Because the structure on medium substrate b surface is identical with the structure on a surface, so figure has only represented the structure of a face.In the present embodiment; First micro groove structure 41 that is in medium substrate a surface is complementary helix structure, and second micro groove structure 42 is an opening helical ring structure, and first micro groove structure 41 and second micro groove structure 42 do not communicate; Clearly, first micro groove structure 41 and second micro groove structure 42 are asymmetric.

In addition; In above-mentioned three embodiment; First micro groove structure and second micro groove structure can also be realized the connection of first micro groove structure and second micro groove structure through new groove of hollow out on first sheet metal, and same the 3rd micro groove structure and the 4th micro groove structure also can be realized the connection of the 3rd micro groove structure and the 4th micro groove structure through new groove of hollow out on second sheet metal.Being communicated with back first micro groove structure and second micro groove structure still is unsymmetric structure; The 3rd micro groove structure and the 4th micro groove structure also are unsymmetric structure; Therefore, effect of the present invention is not had too much influence, equally can be so that antenna has plural at least resonance frequency.

Among the present invention,,, can adopt various manufactures as long as satisfy design principle of the present invention about the processing and manufacturing of antenna.Prevailing method is to use the manufacturing approach of all kinds of printed circuit board (PCB)s (PCB), certainly, metallized through hole, the PCB of double-sided copper-clad makes also can satisfy processing request of the present invention.Remove this processing mode; Can also introduce other manufacturing process according to the needs of reality; (RFID is the abbreviation of Radio Frequency Identification such as RFID; Be REID, be commonly called as electronic tag) but in the processing mode that makes up of processing mode and iron plate and the PCB of flexible PCB processing, iron plate antenna of employed conductive silver paste printing ink processing mode, all kinds of deformation devices.Wherein, iron plate and PCB combination processing mode is meant that the accurate processing that utilizes PCB accomplishes the processing of antenna micro groove structure, accomplishes other slave part with iron plate.In addition, can also process through etching, plating, brill quarter, photoetching, electronics is carved or ion is carved method.

The present invention also provides a kind of MIMO antenna, and described MIMO antenna is made up of a plurality of above-mentioned antennas 100.The MIMO here promptly is meant multiple-input and multiple-output.Be that all single antennas 100 on the MIMO antenna are launched simultaneously, receive simultaneously.The MIMO antenna can increase considerably the information throughput and the transmission range of system under the prerequisite that need not increase bandwidth or total transmitted power loss.MIMO antenna of the present invention in addition also has very high isolation, and the antijamming capability between a plurality of antennas is strong.

MIMO antenna of the present invention, first feeder line of its each antenna 100 and second feeder line are connected with a reception/transmitter after being electrically connected again, and all reception/transmitters all are connected on the baseband signal processor.

Combine accompanying drawing that embodiments of the invention are described above; But the present invention is not limited to above-mentioned embodiment, and above-mentioned embodiment only is schematically, rather than restrictive; Those of ordinary skill in the art is under enlightenment of the present invention; Not breaking away under the scope situation that aim of the present invention and claim protect, also can make a lot of forms, these all belong within the protection of the present invention.

Claims (10)

1. antenna; It is characterized in that; Said antenna comprises medium substrate, attached to first sheet metal and second sheet metal on relative two surfaces of medium substrate, be provided with first feeder line around first sheet metal, be provided with second feeder line around second sheet metal; Said first feeder line is through said first sheet metal of coupled modes feed-in; Said second feeder line is through said second sheet metal of coupled modes feed-in, and hollow out has asymmetrical first micro groove structure and second micro groove structure on first sheet metal, to form first metal routing on said first sheet metal, and hollow out has asymmetrical the 3rd micro groove structure and the 4th micro groove structure on second sheet metal, to form second metal routing on said second sheet metal; Said first feeder line is electrically connected with second feeder line, and said antenna is preset with the space that electronic component embeds.

2. antenna according to claim 1 is characterized in that, said space is arranged between first feeder line, first feeder line and first sheet metal and reaches at least one of these three positions of first sheet metal.

3. antenna according to claim 1 is characterized in that, said space is arranged between second feeder line, second feeder line and second sheet metal and reaches at least one of these three positions of second sheet metal.

4. antenna according to claim 2 is characterized in that, said space is arranged on first metal routing on first sheet metal, and perhaps said space is arranged on first micro groove structure and/or second micro groove structure.

5. antenna according to claim 3 is characterized in that, said space is arranged on second metal routing on second sheet metal, and perhaps said space is arranged on the 3rd micro groove structure and/or the 4th micro groove structure.

6. according to claim 2 or 3 described antennas, it is characterized in that said electronic component is perceptual electronic component, capacitive electronic component or resistance.

7. according to claim 2 or 3 described antennas, it is characterized in that said space is the pad that is formed on the said antenna.

8. antenna according to claim 6 is characterized in that the scope of said perceptual electronic component inductance value is between 0-5uH.

9. antenna according to claim 6 is characterized in that, the scope of said capacitive electronic component capacitance is between 0-2pF.

10. a MIMO antenna is characterized in that, said MIMO antenna comprises a plurality of antennas as claimed in claim 1.

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