CN109244681A - Micro-strip array antenna system based on 77GHz millimetre-wave radar - Google Patents

Abstract

The present invention relates to a kind of micro-strip array antenna systems based on 77GHz millimetre-wave radar, belong to antenna technical field.System includes medium substrate and the transmitting antenna and receiving antenna that are set on medium substrate, the transmitting antenna includes first kind linear type transmitting antenna and plane array type transmitting antenna, the receiving antenna includes linear type receiving antenna, and the transmitting antenna and receiving antenna are connect with 77GHz millimetre-wave radar.Compared with prior art, the present invention has many advantages, such as to may be implemented for middle distance and long-range detection, low cost, small size and high-performance.

Description

Micro-strip array antenna system based on 77GHz millimetre-wave radar

Technical field

The present invention relates to antenna technical field, in particular to a kind of micro-strip array antennas based on 77GHz millimetre-wave radar System.

Background technique

Millimetre-wave radar is widely used in traffic detection field at present, and wherein 77GHz millimetre-wave radar is either Very big advantage is still suffered from detection accuracy or detection range in volume, this is because the radar micro-strip of 77GHz Antenna is easier to realize narrow beam and high-gain under lesser antenna volume.Because of these characteristics, the millimeter wave based on 77GHz Radar will become the standard configuration of active safety.The corresponding wavelength of the radar of 77GHz is shorter, the electromagnetic radiation that electromagnetic wave generates Solenoid circuit processing technology and precision have a very high level.By taking antenna as an example, needed using micro-strip array antenna direct It is printed on the surface of microwave printed board, due to high frequency and minimum wavelength, so that the electric size of antenna is also smaller, processing Error requirements it is also more stringent.It is also less for the Antenna Design of 77GHz millimetre-wave radar at present.

Patent CN201520832615.0 proposes a kind of 77GHz trailer-mounted radar microstrip antenna that big spacing is structured the formation, although It overcomes conventional microstrip antenna and lays difficult defect, but do not account for bulk factor, between being used greatly when designing antenna The square array of 12*12 away from 144 antenna elements composition, can have large effect to the volume of whole pcb board.

Patent CN201110175648.9 provide it is a kind of in such a way that antenna is in conjunction with lens, by lens support plate, more A di-lens, 1 transmitting antenna, multiple receiving antennas and wireless RF transceiver control module are constituted, wireless RF transceiver control module collection At emission control module and control module is received, wherein the quantity of di-lens is equal to the quantity of transmitting antenna and receiving antenna The sum of.Structure is complicated for whole design, and volume is larger, is not easy to be commercialized.

Patent CN200920039530.1 provides a kind of car antenna for microwave and millimeter wave frequency range, using two-sided list Layer PCB technology realizes the closing to electromagnetic wave using upper and lower metal surface and side plated-through hole array, and in opening face Realize effective leaky wave radiation.On the one hand this design is difficult to realize big transmission power, the battle array hole array that on the other hand metallizes is not allowed Easily realize.

Patent CN200820163086.X proposes antivibration, dust-proof, is suitable for millimeter wave aircraft, automobile ship radar and logical Believe equipment transmitting-receiving sensing antenna structure, di-lens antenna integrated by micro-strip, object lens, array pedestal, reflecting mirror, shield, Wave beam change-over switch is constituted, and the cylindrical portion length of di-lens is changeable, aerial array range linear array or face battle array.This scheme Although giving the specific implementation link that dielectric lens antenna and array are realized, there is no specifically disclose it in some work Make frequency range, such as the specific implementation under the conditions of 77GHz.

Summary of the invention

The purpose of the present invention is provide regarding to the issue above it is a kind of with high stability, miniaturization, low cost based on The micro-strip array antenna system of 77GHz millimetre-wave radar.

The purpose of the present invention can be achieved through the following technical solutions:

A kind of micro-strip array antenna system based on 77GHz millimetre-wave radar, the system comprises medium substrate and sets The transmitting antenna and receiving antenna being placed on medium substrate, the transmitting antenna include first kind linear type transmitting antenna peace Face array type transmitting antenna, the receiving antenna include linear type receiving antenna, and the transmitting antenna and receiving antenna are equal It is connect with 77GHz millimetre-wave radar.

Preferably, the first kind linear type transmitting antenna includes multiple transmitting antenna array elements, the launching antenna array Member is arranged in a linear, and is connected with each other by feeder line.

Preferably, the width of transmitting antenna array element is arranged on the first kind linear type transmitting antenna with gradual manner, tool Body are as follows: the width of the transmitting antenna array element of intermediate ends is maximum on the first kind linear type transmitting antenna, the transmitting of left and right ends Bay width successively successively decreases relative to the width of the transmitting antenna array element of intermediate ends.

Preferably, the length range of the transmitting antenna array element is 0.98~1.2mm.

Preferably, the planar array type transmitting antenna includes multiple second class linear type transmitting antennas disposed in parallel, The second class linear type transmitting antenna is connected by the second end of impedance transformer structure and power splitter, and the of the power splitter One end is connect with 77GHz millimetre-wave radar.

Preferably, the structure of the linear type receiving antenna is identical as the structure of first kind linear type transmitting antenna, described The structure of second class linear type transmitting antenna is identical as the structure of first kind linear type transmitting antenna.

Preferably, the quantity of the first kind linear type transmitting antenna is no less than 2, parallel between each other.

Preferably, the difference of the track lengths of the transmitting antenna and receiving antenna is the integral multiple of medium wavelength.

Preferably, the system also includes with antenna, the adjoint antenna is parallel with receiving antenna.

Preferably, earth plate is additionally provided on the medium substrate.

Compared with prior art, the invention has the following advantages:

(1) the micro-strip array antenna system proposed by the present invention based on 77GHz millimetre-wave radar is sent out by setting linear type The structure setting for penetrating antenna, linear type receiving antenna and plane array type transmitting antenna solves in the prior art based on 77GHz The big defect of the micro-strip array antenna system bulk of millimetre-wave radar, realizes the miniaturization of system, simultaneously because planar array The structure setting of type transmitting antenna, can be improved the detection range of system entirety, to improve the stability of system, realize millimeter The middle distance of wave radar and long-range detection.

(2) linear type transmitting antenna includes multiple transmitting antenna array elements, is arranged in a linear and is connected between each other by feeder line It connects, the structure of linear type receiving antenna is also identical, and such connection structure volume is small and is easily achieved, to improve system Degree of miniaturization also reduces system cost.

(3) width of transmitting antenna array element is arranged on linear type transmitting antenna with gradual manner, and such arrangement mode can To control current amplitude ratio, to guarantee to realize that master penetrates direction in the requirement perpendicular to antenna medium plate direction and Sidelobe, mention High system performance.

(4) length range of transmitting antenna array element is 0.98~1.2mm, and such length setting can make every antenna The center spacing of adjacent antenna array element controlled, to guarantee that wave beam master penetrates direction and do not deflect, improve system Sidelobe and The characteristic of high-gain.

(5) planar array type transmitting antenna is become by multiple linear type transmitting antennas disposed in parallel by power splitter and impedance Parallel operation structure connects and composes, and such frame mode is easily achieved, and without additional production, reduces production cost, improve production Efficiency.

(6) difference of the track lengths of transmitting antenna and receiving antenna is the integral multiple of medium wavelength, can guarantee phase in this way Position is equal, guarantees system performance.

(7) system is additionally provided with antenna, is arranged in parallel in receiving antenna two sides, receiving antenna can be made to reach better Consistency improves system performance.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the micro-strip array antenna system based on 77GHz millimetre-wave radar；

Fig. 2 is the structural schematic diagram of linear type transmitting antenna；

Fig. 3 is the structural schematic diagram of planar array type transmitting antenna；

Wherein, 1 is medium substrate, and 2 be feeder line, and 3 be 77GHz millimetre-wave radar, and 4 be microstrip line, and 5 be feeder line, and 6 be antenna Array element, 7 be linear type antenna, and 8 be the linear array unit in the battle array of micro-strip face, and 9 be power splitter input terminal, and 10 be impedance matching branch Section, 11 be power splitter output end.

Specific embodiment

In order to be more clearly understood that technology contents of the invention, spy lifts following embodiment and is described in detail.

Refering to Figure 1, for the present invention is based on the structural representations of the micro-strip array antenna system of 77GHz millimetre-wave radar Figure.

In one embodiment, the micro-strip array antenna system based on 77GHz millimetre-wave radar, including medium substrate are somebody's turn to do And it is set to transmitting antenna and receiving antenna on medium substrate, transmitting antenna includes first kind linear type transmitting antenna peace Face array type transmitting antenna, receiving antenna include linear type receiving antenna, transmitting antenna and receiving antenna with 77GHz millimeter wave Radar connection.

Specifically, the first kind linear type transmitting antenna in system includes multiple transmitting antenna array elements, launching antenna array Member is arranged in a linear, and is connected with each other by feeder line.The width of transmitting antenna array element is on first kind linear type transmitting antenna with gradual change Mode is arranged, specifically: the width of the transmitting antenna array element of intermediate ends is maximum on first kind linear type transmitting antenna, left and right ends Transmitting antenna array element width successively successively decrease relative to the width of the transmitting antenna array element of intermediate ends.And the length of transmitting antenna array element Degree range is 0.98~1.2mm.Planar array type transmitting antenna includes multiple second class linear type transmitting antennas disposed in parallel, Second class linear type transmitting antenna is connected by the second end of impedance transformer structure and power splitter, the first end of power splitter with The connection of 77GHz millimetre-wave radar.The quantity of first kind linear type transmitting antenna is no less than 2, parallel between each other.Linear type connects The structure for receiving antenna is identical as the structure of first kind linear type transmitting antenna, and the structure of the second class linear type transmitting antenna is also with the The structure of a kind of linear type transmitting antenna is identical.The difference of the track lengths of transmitting antenna and receiving antenna is the integer of medium wavelength Times.In addition to this, system further includes with antenna, and adjoint antenna is parallel with receiving antenna.And ground connection is additionally provided on medium substrate Plate.

In practical applications, the present invention is based on the specific implementation sides of the micro-strip array antenna system of 77GHz millimetre-wave radar Formula is illustrated by the following examples.

Embodiment 1

It is as shown in Figure 1 the structural representation of the micro-strip array antenna system based on 77GHz millimetre-wave radar in the present embodiment Figure, in the present embodiment, micro-strip array antenna system is specially that three hairs four receive array antenna structure, i.e., comprising three transmitting antennas and The actual quantity of the system structure of four receiving antennas, transmitting antenna and receiving antenna can be selected flexibly according to the actual situation It selects, the quantity setting being not limited in the present embodiment.

It can be seen from the figure that the micro-strip array antenna system in the present embodiment mainly includes medium substrate and is set to it More antennas on surface.The back side of medium substrate 1 is additionally provided with conductive earth plate (not identifying in figure).In the present embodiment, In order to reach better system performance, medium substrate of the medium substrate 1 using model Rogers3003, dielectric constant 3, thickness Degree is 0.127mm, and the parameter of above-mentioned medium substrate can be selected according to the actual situation, and provided in this embodiment is wherein A kind of preferred embodiment, this chip is connected with 77GHz millimetre-wave radar 3 by feeder line 2 for more antennas.

From figure 1 it appears that the antenna in the present embodiment can be divided into two classes according to structure, one is linear type knots Structure, another then be planar array type structure, wherein the antenna of linear structure includes linear type transmitting antenna and linear type Receiving antenna, and planar array type structure then relates only to planar array type transmitting antenna, from figure 2 it can be seen that every is straight Linear antenna 7 is made of multiple radiating element, that is, bays 6, each bay 6 of every antenna arrange it is in alignment, And it is interconnected by feeder line 5.In order to reach preferable system performance, bay 6 is used with material patch (radiation patch), It is specially to cover copper, thickness range 15.3mm-18.7um on the surface of medium substrate in the present embodiment.And planar array type antenna Implementation in the present embodiment is that 8 single micro-strip array antennas (i.e. linear type antenna) utilize quarter-wave impedance The micro-strip face battle array of transformer configuration composition, the structure size of single antenna is identical as transmitting antenna, in practical realization, constitutes plane The single array antenna quantity of array type antenna can be selected according to the actual situation, be not limited to 8.

In the present embodiment, the numbers of more antennas is 9, in addition among the above 3 transmitting antennas and 4 receiving antennas with Outside, 2 separately have neither part nor lot in radiation with antenna, this two are to make 4 receiving antennas with the main setting purpose of antenna Reach better consistency.It is successively labeled as Bs1, Rx1, Rx2, Rx3, Rx4, Bs2, Tx1, Tx2, Tx3 from top to bottom, wherein Tx3 is planar array type transmitting antenna.It is every in the present embodiment according to the narrow requirement with high-gain in the face E 3dB beam angle (HPBW) Bay, that is, antenna patch number of root antenna is determined as 12, can also be counted according to the actual situation in practical applications The adjustment of amount.It is set as equidistant between adjacent transmission antenna, is set as equidistant between adjacent reception antenna, it is equidistant to be formed From series feed network.Specifically, each distance is configured as follows: the spacing d1 of adjacent reception antenna is 1.98~2.42mm, about 0.56 air wavelength (λ 0), the spacing between Tx1 and Tx2 are that d2 is 7.92~9.68mm, the spacing d3 between Tx2 and Tx3 For 12.76~15.6mm.

The center-spaced size of the adjacent antenna array element 6 of every antenna needs to finely tune in simulations, to guarantee wave beam master Penetrate direction do not deflect, more low-sidelobe level and more high-gain, for this purpose, the length range of bay is set as in the present embodiment 0.98~1.2mm.

In the present embodiment, in order to realize the requirement in the face E Sidelobe, 12 are used as using dongle husband-Chebyshev's distribution The current amplitude of bay can control current amplitude ratio than initial value, and by the gradual change of micro-strip radiation patch width.Design Initial stage, the width that can be approximately considered microband paste are proportional to current amplitude ratio, carry out initial designs.First determine intermediate micro-strip Patch width, then according to current amplitude than determining other patch widths.However, while changing array element patch width, battle array The directional diagram of member also changes correspondingly, and current amplitude also changes correspondingly, and adjacent patch can be also mutually coupled, and change that This current amplitude and phase, therefore actually there is no good linear relationships with current amplitude ratio for patch width.The present invention It carries out adjusting ginseng optimization in full-wave simulation software HFSS, so that it is determined that optimal antenna parameter.That is, by soft to emulating The parameters such as the size of part input medium substrate and power, so that it may obtain the design parameter of antenna, the length including bay Degree, length of feeder line between the width of bay, each bay etc..Wherein, with the change of bay width, even The feed line length for connecing bay is also required to finely tune, to guarantee to realize main direction of penetrating perpendicular to antenna medium plate direction and low The requirement of minor lobe.It is illustrated in figure 2 the structure of single linear array antenna in the present invention.Wherein, the parameters of antenna contain Justice is as follows: L indicates the length of each radiation patch of every antenna, and W (W1-W12) indicates each bay width, each bay Width be gradual change, i.e., intermediate bay width is maximum, the bay at both ends compared to intermediate array element width according to It is secondary to successively decrease, the width of W_50 50 ohm microstrips of expression, the length of L_50 50 ohm microstrips of expression, W_mat expression four/ The width of one impedance transformer, L_mat indicate the length of a quarter impedance transformer, and W_fed indicates the width of feeder line, L (packet Include L1~L11) indicate the length of each feeder line.Four that three hair four receives array antenna are constituted by 8 identical linear arrays Receiving antenna, two environment antennas and two transmitting antennas.

As shown in figure 3, the micro-strip planar array that Tx3 is made of 8 single linear arrays, the planar array it is any one Root antenna and the structural parameters of single linear array shown in Fig. 2 are the same.8 line arrays are given using one point eight of power splitter Array antenna is fed, and 8 linear arrays are symmetrically placed about center line, the spacing between linear array be respectively Lb, Lc, Ld, Le constitute 8 × 12 micro-strip planar array.Width is that the microstrip line that Wg length is Lg is the power splitter input terminal 9, with 8 The connected part of root micro-strip linear array antenna is power splitter output end 11, in order to play to the face the H directional diagram of face battle array Minor lobe inhibits, and also to reach the impedance matching of entire surface battle array, which is utilized 6 a quarter impedance transformers To the power splitter carried out not constant amplitude output, this 6 impedance transformers use 3 kinds of specifications width dimensions, respectively Wa, Wb, Wc, the length of converter are La.In order to enable the planar array can be connected with 50 ohm microstrips, width, which is utilized, is Wp length is that the microstrip line of Lp has carried out impedance matching, as impedance matching minor matters 10.By the simulation optimization of HFSS15, finally Obtained parameter area is as shown in table 1.

1 micro-strip antenna array parameter area of table

And in the present embodiment, see Table 2 for details for the design parameter of micro-strip antenna array

The design parameter value of micro-strip antenna array in 2 the present embodiment of table

The micro-strip array antenna that three hairs four in the present embodiment are received makes 3 transmitting antennas by rationally designing feeder line cabling The medium wavelength of integral multiple is differed, with the feed line length of 4 receiving antennas to reach the equiphase effect of each antenna.

Test, the effect energy of the antenna of the present embodiment are emulated and tested by the micro-strip array antenna to the present embodiment Reach expected technical effect.It is specifically described below.

Emulation testing about antenna standing wave (S11) is carried out to the micro-strip array antenna of the present embodiment, simulation result shows Antenna | S11 | the standing wave bandwidth of < -10dB is respectively as follows:

(1) Rx1:2.5GHz (76~78.5GHz)

(2) Rx2:2.5GHz (76~78.5GHz)

(3) Rx3:2.5GHz (76~78.5GHz)

(4) Rx4:2.5GHz (76~78.5GHz)

(5) Tx1:3GHz (75.8~78.8GHz)

(6) Tx2:3GHz (75.8~78.8GHz)

(7) Tx3:1.9GHz (75.5~77.4GHz) (| S (1,1) | < -15dB)

Above-mentioned data illustrate to work in these frequency ranges, and the reflection coefficient of antenna is small, and impedance operator is good, can normal work Make.

Emulation testing about sidelobe level (SLL) is carried out to the micro-strip array antenna of the present embodiment, simulation result shows In 76-77GHz frequency range, the SLL of all antennas is not more than -17.0dB.This numbers illustrated at an undesired direction goes out The level value size of existing radiation lobe.SLL is bigger, at an undesired direction, can receive biggish level, reduce noise Than introducing interference.

Emulation testing about gain (Gain) is carried out to the micro-strip array antenna of the present embodiment, simulation result shows In 76-77GHz frequency range, the gain of antenna Rx2, Rx3 are greater than 15.0dB, and the gain of antenna Rx1, Rx4 are greater than 13.9dB；Tx1's Gain is 15.8dB, and the gain of Tx2 is 12.2dB.The face battle array that Tx3 is 8 × 12, its gain are greater than 23.9dB, thunder may be implemented Up to the requirement to long-range target acquisition.

Emulation testing about 3dB beam angle (HPBW), simulation result are carried out to the micro-strip array antenna of the present embodiment Show in 76-77GHz frequency range, 7 face antenna E 3dB beam angles are not more than 10 °.This numbers illustrated wave beam is relatively narrow, Main direction of penetrating energy can be concentrated on to radiate.Vertical beamwidth is narrower, and relatively high object can be swept to avoid main beam Body can reduce the interference for introducing deviate the main object for penetrating direction on the vertical plane, such as billboard, road caution board etc..

Emulation testing about isolation (Isolation), simulation result are carried out to the micro-strip array antenna of the present embodiment Show in 76-77GHz frequency range, the isolation of 4 receiving antennas is greater than 22dB；The isolation of three transmitting antennas is greater than 30dB；Isolation between nearest dual-mode antenna Rx4 and Tx1 is greater than 50dB.Isolation from illustrating day on one side Mutual coupling and interference between line, isolation is bigger, and mutual coupling is smaller, influences on the performance of antenna smaller.

In addition, simulation result is shown, in 76-77GHz frequency range, the E surface radiation directional diagram of each antenna is stablized, wherein most Big minor level appears in theta=-31.5 °.In 76-77GHz frequency range, the H surface radiation directional diagram of each antenna is stablized, single The 3dB beam angle of root linear array antenna is about 90 °, and the H surface wave beam width of micro-strip face battle array Tx3 is 8.9 °.

In this description, the present invention is described with reference to its specific embodiment.But it is clear that can still make Various modifications and alterations are without departing from the spirit and scope of the invention.Therefore, the description and the appended drawings should be considered as illustrative And not restrictive.

Claims (10)

1. a kind of micro-strip array antenna system based on 77GHz millimetre-wave radar, which is characterized in that the system comprises medium bases Plate and the transmitting antenna and receiving antenna being set on medium substrate, the transmitting antenna include the transmitting of first kind linear type Antenna and plane array type transmitting antenna, the receiving antenna include linear type receiving antenna, the transmitting antenna and are connect Antenna is received to connect with 77GHz millimetre-wave radar.

2. according to claim 1 based on the micro-strip array antenna system of 77GHz millimetre-wave radar, which is characterized in that described First kind linear type transmitting antenna includes multiple transmitting antenna array elements, and the transmitting antenna array element is arranged in a linear, and passes through feedback Line is connected with each other.

3. according to claim 2 based on the micro-strip array antenna system of 77GHz millimetre-wave radar, which is characterized in that described The width of transmitting antenna array element is arranged on first kind linear type transmitting antenna with gradual manner, specifically: the first kind straight line The width of the transmitting antenna array element of intermediate ends is maximum on type transmitting antenna, and the transmitting antenna array element width of left and right ends is relative in Between the width of transmitting antenna array element held successively successively decrease.

4. according to claim 2 based on the micro-strip array antenna system of 77GHz millimetre-wave radar, which is characterized in that described The length range of transmitting antenna array element is 0.98~1.2mm.

5. according to claim 1 based on the micro-strip array antenna system of 77GHz millimetre-wave radar, which is characterized in that described Planar array type transmitting antenna includes multiple second class linear type transmitting antennas disposed in parallel, the second class linear type transmitting Antenna is connected by impedance transformer structure and the second end of power splitter, the first end and 77GHz millimeter wave thunder of the power splitter Up to connection.

6. according to claim 5 based on the micro-strip array antenna system of 77GHz millimetre-wave radar, which is characterized in that described The structure of linear type receiving antenna is identical as the structure of first kind linear type transmitting antenna, the second class linear type transmitting antenna Structure it is identical as the structure of first kind linear type transmitting antenna.

7. according to claim 1 based on the micro-strip array antenna system of 77GHz millimetre-wave radar, which is characterized in that described The quantity of first kind linear type transmitting antenna is no less than 2, parallel between each other.

8. according to claim 1 based on the micro-strip array antenna system of 77GHz millimetre-wave radar, which is characterized in that described The difference of the track lengths of transmitting antenna and receiving antenna is the integral multiple of medium wavelength.

9. according to claim 1 based on the micro-strip array antenna system of 77GHz millimetre-wave radar, which is characterized in that described System further includes with antenna, and the adjoint antenna is parallel with receiving antenna.

10. according to claim 1 based on the micro-strip array antenna system of 77GHz millimetre-wave radar, which is characterized in that described Earth plate is additionally provided on medium substrate.