CN107069232A - The RCS reducing techniques of micro-strip paster antenna - Google Patents

Abstract

This application discloses a kind of RCS reducing techniques of micro-strip paster antenna, including herein below：Select a microstrip antenna body；Select the polarized rotation blade unit of multiple structure and parameter all sames, multiple polarized rotation blade units of above-mentioned selection are divided into multigroup, form multigroup polarized rotation piece module, polarized rotation blade unit in every group of polarized rotation piece module is arranged in ranks, and makes the direction of metal patch in each polarized rotation piece module consistent；Above-mentioned multigroup polarized rotation piece module is sticked around the radiation patch of microstrip antenna body, each group polarized rotation piece module is arranged along same direction of rotation in 90 degree of rotations.

Description

The RCS reducing techniques of micro-strip paster antenna

Technical field

The present invention relates to communication technical field, the stealthy skill of antenna in Electromagnetic Field and Microwave Technology field is further related to Art.

Background technology

Micro-strip paster antenna (microstrip antenna) is on a thin-medium substrate, simultaneously to enclose thin metal layer As earth plate, the paster of the metal of definite shape is made of photoetching caustic solution for another side, utilizes microstrip line or coaxial probe The antenna constituted to patch, generally applies on various aircraft.

Stealth technology be it is hidden oneself in order to avoid being found by enemy, strengthen the weight of assault ability and self-protection ability with this Means are wanted, are indispensable parts in hyundai electronicses informationization, and receive everybody great attention, in modern army In occupation of vital status in thing.At present, no longer it has been stranded for RCS (RCS) decrement of aircraft in itself Difficulty, still, carry-on micro-strip paster antenna can produce very big RCS in certain angular field of view, therefore, The Radar cross-section redu-ction of micro-strip paster antenna is compeled to be solved.

The content of the invention

The present invention provides a kind of micro-strip paster antenna with low RCS characteristics.

The present invention has the micro-strip paster antenna of low RCS characteristics, including antenna body, and the antenna body includes radiation and pasted Piece, in addition to multigroup polarized rotation piece module around radiation patch is sticked on, every group of polarized rotation piece module includes multiple The polarized rotation blade unit of ranks arrangement, each group polarized rotation piece module is arranged along same direction of rotation in 90 degree of rotations, its Described in polarized rotation blade unit include middle dielectric-slab, the metal base plate positioned at dielectric-slab bottom and positioned at dielectric-slab The direction of metal patch in the metal patch on top, each polarized rotation piece module is consistent, and described metal patch includes two The chip unit being centrosymmetric integrally connected, each chip unit includes the first patch that head and the tail from inside to outside integrally connect Piece and the second paster, the first paster and the second paster include straight fragment and intersect to form sagittate two caudas with straight fragment Section.

Further, described antenna body uses coaxial feeding, and the antenna body also includes medium substantially, described The basic material of medium is identical with the material of the dielectric-slab of the polarized rotation blade unit.Because polarized rotation surface cell is will Array arrangement is constituted around microstrip antenna, so, its medium used is the medium one with the antenna for the RCS to be reduced Sample.

Further, the parameter of the antenna body is as follows：The length of radiation patch is 19mm, and width is 26.5mm, feedback Electricity point distance of the position far from side is 5.5mm, and the basic length and width of medium is 53mm, and coaxial line inner core radius is 0.6mm, coaxial line inner core external diameter is 1.5mm.

Further, the upper surface of the dielectric-slab is square, and the metal patch is diagonal with dielectric-slab upper surface Line is Axisymmetric Distributed Line, and two caudas section of first paster and the second paster is parallel with two sides of dielectric-slab respectively.

Further, the thickness of the dielectric-slab is 3.6mm, and relative dielectric constant is 2.65, and loss tangent angle is 0.001。

Further, the length of side of the dielectric-slab upper surface is 6mm, two caudas section and the dielectric-slab upper table of the second paster The distance on surface side side is 0.2mm.

Further, the length of two caudas section of second paster is 2mm, the length of two caudas section of the first paster Spend for 1.8mm, the width of the cauda section of the first paster and the second paster is 0.4mm, and the end of the cauda section of the first paster is arrived The distance of the symmetrical centre of the metal patch is 1.7mm.

Further, the working frequency of the polarized rotation blade unit is 5.7-17.5GHz, in above-mentioned working frequency Polarized rotation efficiency is more than 80%.

Further, described polarized rotation piece module is L-shaped, and the polarized rotation piece module is located at two sides of inner side Face is parallel with two sides of radiation patch respectively, and the distance between two neighboring polarized rotation piece module is 4.2mm.

Further, the micro-strip paster antenna with low RCS characteristics of the invention, when frequency is in 11.5GHz, RCS subtracts Contracting 15dB.

The present invention technical advantage be：The micro-strip paster antenna with low RCS characteristics designed by the present invention, can protected The decrement of significant RCS is realized on the basis of card micro-strip paster antenna radiation characteristic is unaffected, in working band The decrement of interior RCS has been up to 15dB.

Brief description of the drawings

Fig. 1 is the front view of polarized rotation blade unit in the embodiment of the present invention；

Fig. 2 is the top view of polarized rotation blade unit in Fig. 1；

Fig. 3 is the reflectance factor analogous diagram of polarized rotation blade unit in Fig. 2；

Fig. 4 is the polarized rotation rate PCR result figures of polarized rotation blade unit in Fig. 2；

Fig. 5 is x polarization incidence waves and the electric field intensity figure of its back wave；

Fig. 6 is the array junctions composition one of polarized rotation blade unit in Fig. 2；

Fig. 7 is the array junctions composition two of polarized rotation blade unit in Fig. 2；

Fig. 8 is the RCS comparison diagrams of array junctions composition two and reference surface in array junctions composition one, Fig. 7 in Fig. 6；

Fig. 9 is the front view of the micro-strip paster antenna using coaxial feeding in the embodiment of the present invention；

Figure 10 is the top view of the micro-strip paster antenna using coaxial feeding in Fig. 8；

Figure 11 is the micro-strip paster antenna top view that polarized rotation blade unit is sticked in the present invention；

Figure 12 be stick in Figure 11 the micro-strip paster antenna of polarized rotation blade unit and the S11 curve ratios of reference antenna compared with Figure；

Figure 13 is the increasing of micro-strip paster antenna and reference antenna in xoz faces direction that polarized rotation blade unit is sticked in Figure 11 Beneficial comparison diagram；

Figure 14 is the increasing of micro-strip paster antenna and reference antenna in yoz faces direction that polarized rotation blade unit is sticked in Figure 11 Beneficial comparison diagram；

Figure 15 is that the micro-strip paster antenna and reference antenna that polarized rotation blade unit is sticked in Figure 11 hang down in x direction polarizations ripple Straight incident mono- static RCS comparison diagram；

Figure 16 is that the micro-strip paster antenna and reference antenna that polarized rotation blade unit is sticked in Figure 11 hang down in y direction polarizations ripple Straight incident mono- static RCS comparison diagram；

Figure 17 be stick in Figure 11 polarized rotation blade unit micro-strip paster antenna and reference antenna it is oblique by x direction polarization ripples Mono- static RCS when incident compares figure；

Figure 18 be stick in Figure 11 polarized rotation blade unit micro-strip paster antenna and reference antenna it is oblique by y direction polarization ripples Mono- static RCS when incident compares figure.

Embodiment

Below by embodiment, the present invention is further detailed explanation：

Reference in Figure of description 1 and accompanying drawing 2：Dielectric-slab 1, metal patch 2, chip unit 21, the first paster 211st, cauda section 2111, straight fragment 2112, metal base plate 3.

The polarized rotation blade unit structure of the present embodiment as depicted in figs. 1 and 2, including middle dielectric-slab, positioned at medium The metal base plate of plate bottom and the metal patch positioned at dielectric-slab top, what described metal patch integrally connected including two The chip unit being centrosymmetric, each chip unit includes the first paster that head and the tail integrally connect from inside to outside and the second patch Piece, the first paster and the second paster include straight fragment and intersect to form sagittate two caudas section with straight fragment.Further Dielectric-slab in ground, the present embodiment is in rectangular-shape, and the upper surface of the dielectric-slab is square, and the metal patch is to be situated between The diagonal of scutum upper surface be Axisymmetric Distributed Line, first paster and the second paster two caudas section respectively with dielectric-slab Two sides are parallel.

Further, the thickness t of the dielectric-slab is 3.6mm, the relative dielectric constant ε of dielectric-slab_rFor 2.65, loss is just Corner cut tan δ are 0.001.The length of side p of the dielectric-slab upper surface is 6mm, two caudas section and the dielectric-slab upper table of the second paster The distance on surface side side is g0.2mm.The length a of two caudas section of second paster is 2mm, two caudas section of the first paster Length b be 1.8mm, the width w of the cauda section of the first paster and the second paster is 0.4mm, the cauda section of the first paster End is 1.7mm apart from dt to the symmetrical centre of the metal patch.

In order to verify the polarized rotation efficiency of above-mentioned polarized rotation blade unit, with ansoft HFSS 13.0 to above-mentioned polarization Rotation blade unit is emulated.First, define same polarization and cross polarization represents x direction polarizations incidence wave to x directions respectively Reflectance factor and x direction polarizations incidence wave are represented with Rxx and Rxx respectively to the reflectance factor in y directions.X direction polarizations ripple is allowed to hang down On the straight polarized rotation blade unit incided designed by the present embodiment, simulation result is as shown in Figure 3.

It can be seen that occur in that three resonant frequency points in curve, be respectively 6GHz, 10.3GHz and 16.58GHz.In these three Frequency points, Rxx is almost 0, and Rxy is almost 1, is illustrated in these three resonance points, x direction polarizations Incidence wave has almost been completely converted into y direction polarization back waves by irradiating the polarized rotation blade unit described in the present embodiment, i.e., The polarised direction of incidence wave have rotated 90 degree by the reflection of polarized rotation blade unit.

In order to which the RCS that polarized rotation blade unit in the present embodiment is expanded on further reduces principle, with first resonant frequency Exemplified by point (as shown in Figure 3), i.e., when above-mentioned polarized rotation blade unit is operated in 6GHz, as shown in figure 5, when x direction polarization ripples When (incident electric fields along x directions) Ei vertical irradiations are on polarized rotation blade unit, Ei can be decomposed into is respectively with x-axis angle E on 45 ° and -135 ° of directions_iuAnd E_iv.Due to electric resonance, above-mentioned polarized rotation blade unit can be regarded as one in v directions Perfect electric conductor, therefore E_rvAnd E_ivIt is anti-phase.However, due to magnetic resonance, above-mentioned polarized rotation blade unit can in u direction To be considered as a high impedance surface, then E_ruAnd E_iuIt is same phase.Using Vector modulation, polarization incidence wave has thus been obtained Impinge perpendicularly on the polarization back wave electric field intensity of polarized rotation blade unit back reflection.According to above-mentioned analysis, when identical x polarization When incidence wave is respectively radiated on the polarized rotation blade unit of two symmetrical structures, the phase of obtained polarization back wave electric field intensity Potential difference is 180 °.So, the in opposite direction of two electric fields, numerical value are identical, will cancel out each other, it is achieved thereby that RCS reduces.E_rv And E_ivIt is the reflected field and incident electric fields in v directions respectively.E_ruAnd E_iuIt is the reflected field and incident electric fields of u direction respectively.

For the efficiency of the polarization conversion that preferably describes the polarized rotation blade unit disclosed in the present embodiment, definition polarization Specific rotation (polarization conversion ratio, abbreviation PCR) represents the polarization conversion efficiency of polarized rotation piece, Its specific definition is PCR=| Rxy |²/(|Rxx|²+|Rxy|²).Fig. 4 gives the present embodiment polarized rotation blade unit The simulation result figure of polarized rotation rate.It can be seen that from 5.7-17.5GHz, polarized rotation rate be held at 80% with On.And in three resonant frequency points, polarized rotation rate can then reach more than 97%, the polarized rotation piece of the design is thus proved Unit has higher polarized rotation efficiency.

It is made up of as shown in fig. 7, the present embodiment also discloses one kind polarized rotation blade unit as there is shown in figs. 1 and 2 Polarized rotation piece, including multiple polarized rotation piece modules, the present embodiment is by taking four polarized rotation piece modules as an example, respectively A1 Module, A2 modules, A3 modules and A4 modules, each polarized rotation piece module are rotated by 90 ° to form institute successively along same direction of rotation Polarized rotation piece is stated, each polarized rotation piece module is arranged in grid-like polarized rotation blade unit, Mei Geji including ranks The quantity for changing the polarized rotation blade unit in revolving fragment module is represented by following formula：

N=m², wherein n be polarized rotation blade unit quantity, m be grid side polarized rotation piece quantity, m be more than etc. In 1；Preferred m is that 4, n is 16 in the present embodiment.

Wherein, described polarized rotation blade unit include middle dielectric-slab, positioned at dielectric-slab bottom metal base plate with And the metal patch positioned at dielectric-slab top, the metal patch in polarized rotation blade unit in each polarized rotation piece module Towards all same, described metal patch includes two chip units being centrosymmetric integrally connected, each chip unit Include the first paster and the second paster that head and the tail integrally connect from inside to outside, the first paster and the second paster include straight fragment Sagittate two caudas section is intersected to form with straight fragment.

Further, the dielectric-slab of the polarized rotation blade unit in above-mentioned polarized rotation piece is in rectangular-shape, and is given an account of The upper surface of scutum is square, and the metal patch is using the diagonal of dielectric-slab upper surface as Axisymmetric Distributed Line, first patch Two caudas section of piece and the second paster is parallel with two sides of dielectric-slab respectively.Further, the thickness t of the dielectric-slab For 3.6mm, the relative dielectric constant ε of dielectric-slab_rFor 2.65, loss tangent angle tan δ are 0.001.The dielectric-slab upper surface Length of side p is 6mm, and the two caudas section and the distance of dielectric-slab upper surface side of the second paster are g0.2mm.Second paster The length a of two cauda sections is 2mm, and the length b of two caudas section of the first paster is 1.8mm, the first paster and the second paster The width w of cauda section be 0.4mm, the distance of the end of the cauda section of the first paster to the symmetrical centre of the metal patch Dt is 1.7mm.

In order to analyze the Monostatic RCS (Monostatic of the polarized rotation blade unit described in the present embodiment RCS), from there is provided a kind of polarized rotation of comparative example unlike the polarized rotation piece (be referred to as structure two) described in the present embodiment Piece, referred to as structure one, as shown in fig. 6, the polarized rotation piece of the comparative example it is different from the polarized rotation piece that the present embodiment is provided it Place is only that：Each polarized rotation piece module is in the polarized rotation piece for being used to contrast described in ranks arrangement form, i.e. polarized rotation The direction of metal patch on blade unit is consistent.

The metallic plate for being 48*48mm with a size is tied as reference surface, the mono- static RCS emulation of structure one and structure two Fruit is as shown in Figure 8.It can be seen that structure two has low RCS characteristics compared to reference surface.However, structure one does not show The RCS decrement contributions of work.Therefore, the RCS that structure two can be applied to micro-strip paster antenna reduces.

In addition, the present embodiment also discloses a kind of micro-strip paster antenna of coaxial feeding (i.e. claims of the present invention In microstrip antenna body).According to the design requirement of polarized rotation blade unit as illustrated in figs. 1 and 2, i.e. known media plate Thickness t is 3.6mm, relative dielectric constant ε_r=2.65, loss tangent angle tan δ=0.001, as shown in Figure 9 and Figure 10, design The length L=19mm of the radiation patch of the micro-strip paster antenna gone out, width W=26.5mm, feed position L1=5.5mm, are situated between The length and width of matter substrate is W1=2*W=53mm, and coaxial line inner core radius is r1=0.6mm, and external diameter is r2= 1.5mm, working frequency f=4.3GHz.In Fig. 9,4 represent reference ground, and 5 represent coaxial feeder.

It is known that using the array arrangement mode of structure two, it is possible to achieve significant RCS decrements.Therefore, described On the basis of micro-strip paster antenna, by polarized rotation blade unit with the identical mode of structure two (i.e. each polarized rotation piece mould Block is rotated by 90 ° successively along same direction of rotation) array is attached to around the paster of micro-strip paster antenna, and it is referred to as micro-strip of the present invention and pastes Chip antenna.

Specific structure as shown in figure 11, sticks four groups of polarized rotation piece moulds around the radiation patch of micro-strip paster antenna Block, polarized rotation piece module is L-shaped, and every group of polarized rotation piece module includes the polarized rotation blade unit of 12 ranks arrangements, Each group polarized rotation piece module is arranged along same direction of rotation in 90 degree of rotations, and polarized rotation piece module is located at two of inner side Side is parallel with two sides of radiation patch respectively.The distance between two neighboring polarized rotation piece module is 4.2mm.This reality Apply the basic material of medium in example identical with the material of the dielectric-slab of the polarized rotation blade unit.

The RCS reducing techniques of micro-strip paster antenna disclosed in the present embodiment, including herein below：Select a microstrip antenna Body；The polarized rotation blade unit of multiple structure and parameter all sames is selected, each polarized rotation blade unit includes centre Dielectric-slab, the metal base plate for sticking dielectric-slab bottom and the metal patch for being pasted on dielectric-slab top, the metal patch of selection Including two chip units being centrosymmetric integrally connected, each chip unit includes head and the tail from inside to outside and integrally connected The first paster and the second paster, the first paster and the second paster include straight fragment and intersected to form with straight fragment sagittate Two cauda sections；

Multiple polarized rotation blade units of above-mentioned selection are divided into multigroup, multigroup polarized rotation piece module, every group of pole is formed Change the polarized rotation blade unit in revolving fragment module to arrange in ranks, and make the metal patch in each polarized rotation piece module Direction it is consistent；

Above-mentioned multigroup polarized rotation piece module is sticked around the radiation patch of microstrip antenna body, makes each group polarization rotation Rotor module is arranged along same direction of rotation in 90 degree of rotations.

RCS decrement principle is as follows in the present embodiment:

Wherein, σ is RCS value, and R is the E from can scatter with a distance from the scattering object of electromagnetic wave_iRepresent plane of incidence electromagnetic wave Electric-field intensity, E^sIt is the electric-field intensity of the scattered wave of scattering object transmitting.And polarized rotation blade unit can be by the side of scattered wave To being rotated by 90 °, so the scattered wave between adjacent polarized revolving fragment module among Figure 10 can be real in the range of certain angle Now offset, i.e. E^sReduce, then RCS value also reduces.

In order to illustrate that there is the micro-strip paster antenna that polarized rotation blade unit is sticked disclosed in the present embodiment significant RCS to subtract Contracting, special reference antenna (parameter and the micro-strip paster antenna in the present embodiment with not sticking the emulation of the polarized rotation blade unit Unanimously) contrasted.

Utilize its Reduce shrinkage effect of HFSS simulating, verifyings.The simulation result of S parameter (i.e. reflectance factor) is as shown in figure 12, in figure It can be seen that, compared with the centre frequency of emulation is 4.3GHz reference antenna, the Antenna Operation is in 4.29GHz.With emulation Reference antenna centre frequency is compared, and frequency, which becomes, turns to 0.1%, and this is considered as an acceptable value.In addition, producing 10dB resistances The change of anti-bandwidth is not obvious, therefore, and the polarized rotation blade unit influences negligible to the resonant frequency of micro-strip paster antenna.

The directional diagram of two antennas is contrasted as shown in Figure 13 and Figure 14, from the figure, it can be seen that being pasted around reference antenna Apply after polarized rotation blade unit, the gain of two antennas has almost no change, this is all in tolerance interval.Therefore, this It is enough to illustrate, polarized rotation blade unit is to the micro-strip paster antenna disclosed in sticking the present embodiment around micro-strip paster antenna Gain effects are very little.

In order to prove the feasibility of reduction micro-strip paster antenna RCS methods presented above, reference antenna and the present invention are micro- Mono- static RCS simulation result with paster antenna is as shown in Figure 15 and Figure 16.From the figure, it can be seen that when x directions and y direction polarizations When ripple is impinged perpendicularly on micro-strip paster antenna of the present invention respectively, significant RCS decrements are all realized.Especially, when frequency exists The Reduce shrinkage effect more than 15dB has been reached during 11.5GHz or so.

Although worst RCS directions are when incidence wave vertical irradiation, also necessary analysis is oblique in polarized wave Situation when incident.Figure 17 and Figure 18 are illustrated when micro-strip paster antenna of the present invention is operated in 11GHz, and incidence angle is asynchronous RCS.It is concluded that：RCS can only reach decrement in the range of -45 °~45° angle degree.

The present invention devises the efficient polarized rotation blade unit of a comparison first, then by the way that its array is polarization Revolving fragment module, then the polarized rotation piece module is rotated by 90 ° successively along same direction of rotation, polarized rotation piece is formed, is reached Low RCS characteristics are arrived.On the basis of designing herein, the micro-strip paster antenna of a use same media substrate is devised again, will Polarized rotation piece with low RCS characteristics sticks on around the radiation patch of micro-strip paster antenna to reduce Antenna/RCS, is used in combination HFSS has carried out simulating, verifying.As a result show, the method can ensure that micro-strip paster antenna is impregnable in its radiance On the basis of realize significant RCS decrement.

Above-described is only that the known general knowledge such as concrete structure and characteristic is not made herein in embodiments of the invention, scheme Excessive description, technical field that the present invention belongs to is all before one skilled in the art know the applying date or priority date Ordinary technical knowledge, can know prior arts all in the field, and with using normal experiment hand before the date The ability of section, one skilled in the art can improve and implement under the enlightenment that the application is provided with reference to self-ability This programme, some typical known features or known method should not implement the application as one skilled in the art Obstacle.It should be pointed out that for those skilled in the art, without departing from the structure of the invention, can also make Go out several modifications and improvements, these should also be considered as protection scope of the present invention, these effects implemented all without the influence present invention Fruit and practical applicability.The scope of protection required by this application should be based on the content of the claims, the tool in specification Body embodiment etc. records the content that can be used for explaining claim.

Claims (7)

1. the RCS reducing techniques of micro-strip paster antenna, it is characterised in that including herein below：Select a microstrip antenna body； The polarized rotation blade unit of multiple structure and parameter all sames is selected, each polarized rotation blade unit includes the medium of centre Plate, the metal base plate for sticking dielectric-slab bottom and the metal patch for being pasted on dielectric-slab top, the metal patch of selection include Two chip units being centrosymmetric for integrally connecting, each chip unit include that head and the tail from inside to outside integrally connect the One paster and the second paster, the first paster and the second paster include straight fragment and intersect to form sagittate two with straight fragment Cauda section；

Multiple polarized rotation blade units of above-mentioned selection are divided into multigroup, multigroup polarized rotation piece module, every group of polarization rotation is formed Polarized rotation blade unit in rotor module is arranged in ranks, and makes the court of the metal patch in each polarized rotation piece module To consistent；

Each group polarized rotation piece module is rotated by 90 ° to the radiation patch for sticking on microstrip antenna body successively along same direction of rotation Around piece；

The direction of scattered wave can be rotated by 90 ° by polarized rotation blade unit, so that the scattering between adjacent polarized revolving fragment module Ripple realizes counteracting in the range of -45 ° ~ 45° angle degree, so as to reduce the electric-field intensity of the scattered wave of scattering object transmitting, to realize RCS Decrement.

2. the RCS reducing techniques of micro-strip paster antenna according to claim 1, it is characterised in that：The microstrip antenna of selection Body uses coaxial feeding mode, the basic material of medium of the microstrip antenna body of selection and the polarized rotation piece The material of the dielectric-slab of unit is identical.

3. the RCS reducing techniques of micro-strip paster antenna according to claim 1, it is characterised in that：The dielectric-slab it is upper Surface is square, when sticking, makes the metal patch using the diagonal of dielectric-slab upper surface as Axisymmetric Distributed Line, and is made described Two caudas section of first paster and the second paster is parallel with two sides of dielectric-slab respectively.

4. the RCS reducing techniques of micro-strip paster antenna according to claim 3, it is characterised in that：The polarized rotation of selection The length of side of the dielectric-slab upper surface of blade unit is 6mm, the two caudas section and the distance of dielectric-slab upper surface side of the second paster It is 0.2mm.

5. the RCS reducing techniques of micro-strip paster antenna according to claim 3, it is characterised in that：The polarized rotation of selection The working frequency of blade unit is 5.7-17.5GHz, and the polarized rotation efficiency in above-mentioned working frequency is more than 80%.

6. the RCS reducing techniques of micro-strip paster antenna according to claim 1, it is characterised in that：The polarized rotation sticked Piece module is L-shaped, when sticking, and the polarized rotation piece module is located at two of two sides of inner side respectively with radiation patch Side is parallel, and the distance between two neighboring polarized rotation piece module is 4.2mm.

7. the RCS reducing techniques of micro-strip paster antenna according to claim 1, it is characterised in that：When frequency is in 11.5GHz When, RCS decrements 15dB.