CN102956943A - Metamaterial-based microstrip line - Google Patents

Metamaterial-based microstrip line Download PDF

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Publication number
CN102956943A
CN102956943A CN2011102545818A CN201110254581A CN102956943A CN 102956943 A CN102956943 A CN 102956943A CN 2011102545818 A CN2011102545818 A CN 2011102545818A CN 201110254581 A CN201110254581 A CN 201110254581A CN 102956943 A CN102956943 A CN 102956943A
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microstrip line
super
super material
line based
structural
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CN102956943B (en
Inventor
刘若鹏
季春霖
岳玉涛
李星昆
周添
宿超
杨树坤
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Kuang Chi Institute of Advanced Technology
Kuang Chi Innovative Technology Ltd
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Kuang Chi Institute of Advanced Technology
Kuang Chi Innovative Technology Ltd
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Priority to CN201110254581.8A priority Critical patent/CN102956943B/en
Priority to PCT/CN2012/073683 priority patent/WO2013029372A1/en
Publication of CN102956943A publication Critical patent/CN102956943A/en
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Abstract

The invention relates to the field of microstrip lines and provides a metamaterial-based microstrip line. The microstrip line comprises a metal strip, a dielectric substrate, an earth plate and a metamaterial thin film, wherein the metamaterial thin film and the metal strip are arranged on the same side of the dielectric substrate and cling to the dielectric substrate; the metamaterial thin film covers the metal strip; and the earth plate is arranged on the other side of the dielectric substrate. The microstrip line has the beneficial effects that space wave leak can be effectively restricted and the problem of electromagnetic wave crosstalk between microstrip lines is solved.

Description

Microstrip line based on super material
Technical field
The present invention relates to the microstrip line field, in particular, relate to a kind of microstrip line based on super material.
Background technology
Microstrip line (Microstrip Line) is present hybrid microwave integrated circuit (Hybrid Microwave Integrated Circuits, HMIC) and use maximum a kind of plane transmission lines in the monolithic integrated microwave circuit (Monolithic Mictowave Integrated Circuits, MMIC).As shown in Figure 1, on structure, microstrip line is to be placed on the ground plate 3 with the interval much smaller than wavelength by very thin metal tape 1, separates with medium substrate 3 between metal tape 1 and the ground plate 2.
The outstanding advantages of microstrip line is that structure is small and exquisite, lightweight, can make complicated microwave circuit in little volume with techniques such as mechanical, photoetching, corrosion, and easily integrated with other microwave device, realization microwave component and system integrated.
Day by day miniaturization along with microwave device and system, at some volume and weight is required harsh occasion, can adopt microstrip transmission line to replace waveguide and consist of microwave circuit and form various complex plane circuit at the same substrate, comprise bridge circuit, matched load, attenuator antenna etc.But adopt microstrip line to transmit same existent defect, i.e. microstrip line loss more greatly, easily leak electromagnetic energy cause crosstalk, Q value is low, be difficult to realize finely tuning, power capacity is little etc.
In using the microstrip line transmission course, the guided electromagnetic wave on the microstrip line axially constantly produces leaky wave to the space radiation energy along microstrip line, and wherein electromagnetic wave leakage has two kinds of forms: surface wave form 5 and space wave form 4, as shown in Figure 2.Known that at present microstrip line exists one to leak main mould at high band, this leaks main mould with the outside leakage electromagnetic wave energy of the form of surface wave; And in low-frequency range, each higher mode of microstrip line is then with the outside leakage electromagnetic wave energy of the form of space wave.No matter be that surface wave leaks or space wave leaks, in integrated circuit, these leaky waves all are harmful to, it not only brings the decline of through-put power, and the energy of its leakage also can be given on every side, and other circuit bring electromagnetic interference problem, thereby so that overall system performance descends, therefore need to suppress it.
In the prior art, mainly adopt at microstrip line and apply enough large thin dielectric layers of one deck dielectric constant for suppressing method that microstrip line master mould leaks; Yet the inhibition for the microstrip line higher mode is leaked does not have any simple effective method.This mainly is owing to microstrip line master mould leaks different the causing of physical mechanism of leaking from higher mode, and the space wave of microstrip line higher mode leaks and almost is difficult to be curbed by complete.
Summary of the invention
The object of the invention is to overcome the defective of the space wave leakage of microstrip line higher mode in the prior art, the microstrip line based on super material is provided, this microstrip line can effectively suppress space wave to be revealed, and solves the problem that electromagnetic wave is crosstalked between the microstrip line.
In order to achieve the above object, the following technical scheme of the present invention's employing:
Microstrip line based on super material, described microstrip line comprises metal tape, medium substrate and ground plate, described microstrip line also comprises super material film, described super material film and metal tape are positioned at a side of described medium substrate, and all be close to described medium substrate, wherein, described super material film covers described metal tape, and described ground plate is positioned at the opposite side of described medium substrate.
Further, described super material film is by stacking the forming of a plurality of super sheet of material, and a plurality of super sheet of material has identical refraction index profile.
Further, described each super sheet of material forms by a plurality of super material cell.
Further, described super material cell comprises artificial micro-structural and the unit base material that adheres to for artificial micro-structural.
Further, the refraction index profile in described each super sheet of material is uniformly, and the span of its refractive index is: 0~1, and usually, the refractive index in described each super sheet of material is preferably 0.7.
Further, described artificial micro-structural is for to form planar structure or the stereochemical structure that electromagnetic field is had response by at least one one metal wire, and described wire is copper wire or filamentary silver.
Further, described wire is attached on the described unit base material by etching, plating, brill quarter, photoetching, electronics is carved or ion is carved method.
Further, described artificial micro-structural be flakes or alabastrine derivative shape any one.
Further, described unit base material is made by ceramic material, epoxy resin, polytetrafluoroethylene, FR-4 composite material or F4B composite material.
The present invention is with respect to prior art, have following beneficial effect: a kind of microstrip line based on super material of the present invention is by arranging the super material film of one deck at medium substrate, and described super material film covering metal band, effectively suppressed the leaky wave of microstrip line space wave form, the electromagnetic wave that has reduced adjacent microstrip line is crosstalked.
Description of drawings
Fig. 1 is the structural representation of microstrip line in the prior art;
Fig. 2 is the schematic diagram of two kinds of leaky wave forms of microstrip line in the prior art;
Fig. 3 is the structural representation that the present invention is based on the microstrip line of super material;
Fig. 4 is the structural representation of super material film of the present invention;
Fig. 5 is super material cell structural representation of the present invention.
Embodiment
Below in conjunction with embodiment and accompanying drawing, the present invention is described in further detail, but embodiments of the present invention are not limited to this.
As shown in Figure 3, the present invention is based on the structural representation of the microstrip line of super material, described microstrip line comprises metal tape 10, ground plate 20 and medium substrate 30, wherein, metal tape 10 and ground plate 20 lay respectively at the both sides of described medium substrate 30, metal tape 10 generally places on the medium substrate 30 by the mode of circuit printing, in preferred embodiment of the present invention, also with the super material film 40 of medium substrate surface-coated one deck of described metal tape 10 the same sides, and super material film 40 covers described metal tape 10 fully.
Among the present invention, described metal tape 10 all adopts identical metal with described ground plate 20, and generally adopts copper.
Reveal for the space wave form that suppresses to produce in the metal tape 10 electromagnetic transmission processes, adopt super material film 40 as covering metal band 10, and then the electromagnetic wave that reduces between the adjacent microstrip line is crosstalked.
Described super material film 40 is comprised of a plurality of super sheet of material 401, and wherein each super sheet of material 401 forms by a plurality of super material cell 50, and described super material cell 50 comprises artificial micro-structural 502 and the unit base material 501 that adheres to for artificial micro-structural 502.
Described a plurality of super sheet of material 401 is a plurality of super sheet of material with identical refraction index profile.
Refraction index profile in described each super sheet of material 401 is uniform, but the refractive index span is between 0 and 1, because this ranges of indices of refraction is to make the medium refraction index scope of invisible clothes, with so super material film covering metal band 10, can effectively suppress the space wave form of microstrip line and reveal, reduce the electromagnetic wave of adjacent microstrip line and crosstalk.In the preferred embodiment of the present invention, the value of the refractive index in each super sheet of material 401 is 0.7.
Realize the variation of refractive index shown in Figure 3 for each the super sheet of material 401 that makes super material film 40, through theoretical and actual proof, can to the topological structure of described artificial micro-structural 502, physical dimension with and the design that distributes at unit base material 501, unit base material 501 adopts dielectric insulation material to make, can be ceramic material, macromolecular material, ferroelectric material, ferrite material, ferromagnetic material etc., macromolecular material for example can be, epoxy resin or polytetrafluoroethylene.Artificial micro-structural 502 is for to be attached to the metal wire that response can be arranged electromagnetic wave on the unit base material 501 with certain geometry, metal wire can be that section is the copper cash of cylindric or flat, silver line etc., the general copper that adopts, because copper wire is relatively cheap, certainly the section of metal wire also can be other shapes, metal wire is by etching, electroplate, bore and carve, photoetching, electronics carve or ion quarter etc. technique be attached on the unit base material 501, described each super sheet of material 401 is comprised of a plurality of super material cell 50, each super material cell 50 all has an artificial micro-structural 502, each super material cell 50 can produce response to the electromagnetic wave that passes through wherein, thereby affect electromagnetic wave transmission therein, the size of each super material cell 50 depends on the electromagnetic wave of needs response, be generally required response electromagnetic wavelength 1/10th, can not be regarded as in the space continuously otherwise comprise being arranged in that the super material cell 50 of artificial micro-structural 502 forms in the space.
In the selected situation of unit base material 501, by shape, size and the spatial distribution on unit base material 501 thereof of adjusting artificial micro-structural 502, can adjust everywhere effective dielectric constant and equivalent permeability and then the super material of change equivalent refractive index everywhere on the super material.When artificial micro-structural 502 adopted identical geometry, the size of the artificial micro-structural in somewhere was larger, and the effective dielectric constant that then should locate is larger, and refractive index is also larger.
The pattern of the artificial micro-structural 502 that the present embodiment adopts is alabastrine derivative pattern, by Fig. 4 and Fig. 5 as can be known, the size of the artificial micro-structural 502 of flakes can according to concrete should be used for fixed.
Above-described embodiment is the better execution mode of the present invention; but embodiments of the present invention are not restricted to the described embodiments; other any do not run counter to change, the modification done under Spirit Essence of the present invention and the principle, substitutes, combination, simplify; all should be the substitute mode of equivalence, be included within protection scope of the present invention.

Claims (10)

1. based on the microstrip line of super material, described microstrip line comprises metal tape, medium substrate and ground plate, it is characterized in that, described microstrip line also comprises super material film, described super material film and metal tape are positioned at a side of described medium substrate, and all are close to described medium substrate, wherein, described super material film covers described metal tape, and described ground plate is positioned at the opposite side of described medium substrate.
2. the microstrip line based on super material according to claim 1 is characterized in that, described super material film is by stacking the forming of a plurality of super sheet of material, and a plurality of super sheet of material has identical refraction index profile.
3. the microstrip line based on super material according to claim 1 is characterized in that, described each super sheet of material forms by a plurality of super material cell.
4. the microstrip line based on super material according to claim 3 is characterized in that, described super material cell comprises artificial micro-structural and the unit base material that adheres to for artificial micro-structural.
5. the described microstrip line based on super material of any one is characterized in that according to claim 1~3, and the refraction index profile in described each super sheet of material is uniformly, and the span of its refractive index is: 0~1.
6. the microstrip line based on super material according to claim 5 is characterized in that, the refractive index in described each super sheet of material is 0.7.
7. the microstrip line based on super material according to claim 4 is characterized in that, described artificial micro-structural is for to form planar structure or the stereochemical structure that electromagnetic field is had response by at least one one metal wire, and described wire is copper wire or filamentary silver.
8. the microstrip line based on super material according to claim 7 is characterized in that, described wire is attached on the described unit base material by etching, plating, brill quarter, photoetching, electronics is carved or ion is carved method.
9. the microstrip line based on super material according to claim 7 is characterized in that, described artificial micro-structural be flakes or alabastrine derivative shape any one.
10. the microstrip line based on super material according to claim 4 is characterized in that, described unit base material is made by ceramic material, epoxy resin, polytetrafluoroethylene, FR-4 composite material or F4B composite material.
CN201110254581.8A 2011-08-31 2011-08-31 Based on the microstrip line of Meta Materials Active CN102956943B (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
CN201110254581.8A CN102956943B (en) 2011-08-31 2011-08-31 Based on the microstrip line of Meta Materials
PCT/CN2012/073683 WO2013029372A1 (en) 2011-08-31 2012-04-09 Microstrip

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201110254581.8A CN102956943B (en) 2011-08-31 2011-08-31 Based on the microstrip line of Meta Materials

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CN102956943B CN102956943B (en) 2016-04-06

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Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5682167A (en) * 1995-03-22 1997-10-28 The Charles Stark Draper Laboratory Mesa antenna
CN102160175A (en) * 2008-08-22 2011-08-17 台湾积体电路制造股份有限公司 Impedance controlled electrical interconnection employing meta-materials

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5682167A (en) * 1995-03-22 1997-10-28 The Charles Stark Draper Laboratory Mesa antenna
CN102160175A (en) * 2008-08-22 2011-08-17 台湾积体电路制造股份有限公司 Impedance controlled electrical interconnection employing meta-materials

Non-Patent Citations (2)

* Cited by examiner, † Cited by third party
Title
CHING-YING CHENG等: "Tailoring Double-Negative Metamaterial Responses to Achieve Anomalous Propagation Effects Along Microstrip Transmission Lines", 《IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES》 *
KAORU等: "Development of Low Characteristic Impedance Transmission Line for Power Supply", 《VLSI PACKAGING WORKSHOP OF JAPAN》 *

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