CN201383549Y - Multibeam antenna with high radiation efficiency - Google Patents

Abstract

A multibeam antenna with high radiation efficiency is an intelligent antenna suitable for microwave and millimeter wave mobile communication, satellite communication, radar detection, space power synthesis and microwave imaging. The substrate-shared multibeam antenna adopts a plane circuit structure, wherein an upper metal layer coated with a copper surface (1) and a lower metal layer coated with a copper surface (2) are respectively positioned on the upper and lower surfaces of a dielectric substrate (3), and a metalized through-hole (4) penetrates the dielectric substrate (3) and is connected with the upper metal layer coated with the copper surface (1) and the lower metal layer coated with the copper surface (2) to form a substrate-integrated waveguide 90-degree directional coupler (51), a substrate-integrated waveguide 90-degree directional coupler (52), a substrate-integrated waveguide 90-degree directional coupler (53), a substrate-integrated waveguide 90-degree directional coupler (54), a substrate-integrated waveguide 45-degree phase shifter (61), a substrate-integrated waveguide 45-degree phase shifter (62), a substrate-integrated waveguide 4-slot array antenna (7), and an inductive metal rod (9).

Description

The multi-beam antenna that radiation efficiency is high

Technical field

The utility model be a kind ofly be applicable to that microwave and millimeter wave mobile communication, satellite communication, radar detection, spatial power are synthetic, microwave imaging and smart antenna, the technical field that belongs to the microwave antenna design and make.

Background technology

The developing rapidly of mobile communication makes traditional multi-access mode, as CDMA, and FDMA, TDMA etc. can not satisfy growing dilatation needs.Multi-beam antenna produces a plurality of different wave beams that point to by Wave-packet shaping network, is used for covering whole user area, thereby realization improves channel capacity, reduces and disturb, reduce targets such as launching power consumption.Wave-packet shaping network generally can be divided into two big classes: circuit class (being network class again) and quasi-optical lens class.Wherein, the circuit class is to constitute by transmission line connection power splitter and coupler.Producing the required phase shift of beam scanning can obtain by not isometric transmission line or special phase shifter, and the distribution of bore face amplitude is to be controlled by the merit branch rate of power splitter.Up to the present, two kinds of common circuit class Wave-packet shaping networks, i.e. Butler matrix and Blass matrixes are arranged.Wherein the Butler matrix is present the most widely used circuit class Wave-packet shaping network.

Compare with quasi-optical lens class, circuit class Wave-packet shaping network has more performance, but also has some shortcomings.Show as mainly that volume is huger, structure is complicated, when input branch road quantity more especially true.For example, when exponent number greater than 3 the time, circuit class Wave-packet shaping network all needs the transmission line structure of one or several intersections, this is fatal problem to planar circuit.Even if substitute chi structure, also can bring such as a series of problems such as loss increasing, complex structure, bandwidth minimizings with the 0dB coupler.Have a kind of microwave circuit to be referred to as " eight ports knot ", it mainly is applied to the feed design of monopulse antenna and the design of power splitter.We find to add two fixed phase shifters on the basis of former eight ports knot, promptly can utilize easy structure to realize 4 * 4 Wave-packet shaping network, thereby keep away the intersection of transmission line in the Wave-packet shaping network.

On the other hand, the development trend of Wave-packet shaping network is that operating frequency improves, integrated, complanation, miniaturization, low-cost processing, produce repeatable highly, will guarantee the performance that it is good simultaneously.Simultaneously integrated, high reliability, the high radiation efficiency in order to realize system can be integrated in Wave-packet shaping network and antenna array on the same dielectric substrate realization " cobasis sheet multi-beam antenna ".Under this target, the Wave-packet shaping network that planar circuit is realized has inborn advantage, but also has some fatal defectives, is mainly reflected in its operating frequency when higher, especially at millimeter wave frequency band.For example, the millimeter wave Wave-packet shaping network that the general closed planar circuited transmission realizes is difficult to be integrated on the same dielectric substrate with antenna array, this mainly is because its circuit can produce very big mutual coupling and radiation when like this high-frequency operation, can greatly restrict the integrated of Wave-packet shaping network and influence the directional diagram of cobasis sheet multi-beam antenna.Beam shaping network utilisation substrate integrated wave guide structure is realized in this patent, and it is a planar circuit structure, and has advantages such as loss is low, processing is easy.The what is more important substrate integration wave-guide is totally enclosed structure, does not almost have mutual coupling and radiation between the circuit of its formation of millimeter wave frequency band, thus its can be directly and antenna array be integrated on the single dielectric substrate, form the multi-beam antenna of cobasis sheet.

Summary of the invention

Technical problem: the purpose of this utility model provides the high multi-beam antenna of a kind of radiation efficiency, increases by two 45 ° of fixed phase shifters on the structure of former eight ports knot, utilizes substrate integration wave-guide to realize 4 port cobasis sheet multi-beam antennas of millimeter wave frequency band.It has similar performance to the multi-beam antenna that utilizes 4 * 4Butler matrix feed, and volume compact, achiasmate transmission line structure, reliability height, radiation characteristic be not subjected to the interference of Wave-packet shaping network, low, the easy production in enormous quantities of cost of manufacture, easily and active circuit integrated.

Technical scheme: the multi-beam antenna that radiation efficiency of the present utility model is high is a planar circuit structure, the upper strata metal applies copper face, lower metal applies the upper and lower surface that copper face lays respectively at dielectric substrate, and plated-through hole passes dielectric substrate and the upper strata metal applies copper face, the deposited copper face of lower metal is connected and forms first chip integrated waveguide 90 ° directional coupler, second chip integrated waveguide 90 ° directional coupler, the 3rd chip integrated waveguide 90 ° directional coupler, the 4th chip integrated waveguide 90 ° directional coupler, 45 ° of phase shifters of first substrate integration wave-guide, 45 ° of phase shifters of second substrate integration wave-guide, substrate integration wave-guide 4 line of rabbet joint crack array antennas; First input port of cobasis sheet multi-beam antenna links to each other with first input port of first chip integrated waveguide 90 ° directional coupler, second input port of cobasis sheet multi-beam antenna links to each other with second input port of first chip integrated waveguide 90 ° directional coupler, the 3rd input port of cobasis sheet multi-beam antenna links to each other with first input port of second chip integrated waveguide 90 ° directional coupler, the 4th input port of cobasis sheet multi-beam antenna links to each other with second input port of second chip integrated waveguide 90 ° directional coupler; One end of 45 ° of phase shifters of first substrate integration wave-guide links to each other with first delivery outlet of first chip integrated waveguide 90 ° directional coupler, and the other end links to each other with first input port of the 3rd chip integrated waveguide 90 ° directional coupler; One end of 45 ° of phase shifters of second substrate integration wave-guide links to each other with first delivery outlet of second chip integrated waveguide 90 ° directional coupler, and the other end links to each other with first input port of the 4th chip integrated waveguide 90 ° directional coupler; Second delivery outlet of first chip integrated waveguide 90 ° directional coupler links to each other with second input port of the 4th chip integrated waveguide 90 ° directional coupler, and second delivery outlet of second chip integrated waveguide 90 ° directional coupler links to each other with second input port of the 3rd chip integrated waveguide 90 ° directional coupler; 4 identical substrate integration wave-guide 4 line of rabbet joint crack array antennas are formed one 4 element antenna arrays, one terminal shortcircuit of each substrate integration wave-guide 4 line of rabbet joint crack array antenna, the other end link to each other with a delivery outlet of the 3rd chip integrated waveguide 90 ° directional coupler, the 4th chip integrated waveguide 90 ° directional coupler respectively; Corner at the substrate integration wave-guide circuit is equipped with a perceptual Metallic rod to realize good coupling.

45 ° of phase shifters of first substrate integration wave-guide, 45 ° of phase shifters of second substrate integration wave-guide are by regulating the position of plated-through hole, formation has the substrate integration wave-guide of different in width, its internal electromagnetic velocity of wave propagation of wide more substrate integration wave-guide is slow more, thereby realizes required phase-shift phase.

Substrate integration wave-guide 4 line of rabbet joint crack array antennas are positioned at the upper strata metal and apply on the copper face, are made up of unit, 4 line of rabbet joint cracks, and the both sides that each unit, line of rabbet joint crack is positioned at center line have line of rabbet joint crack, form 4 element antenna arrays.In order to realize compact structure, use first delivery outlet of the 3rd chip integrated waveguide 90 ° directional coupler respectively, first delivery outlet of the 4th chip integrated waveguide 90 ° directional coupler, second delivery outlet of the 3rd chip integrated waveguide 90 ° directional coupler, second delivery outlet of the 4th chip integrated waveguide 90 ° directional coupler alternately carries out feed to 4 foundation sheet integrated waveguides, 4 line of rabbet joint crack array antennas from two ends, this can make voluminous phase-shift phase of giving birth to 180 ° between adjacent substrate integration wave-guide 4 line of rabbet joint crack array antennas, even becoming, the wave beam in the middle of should leaning on keeps to the side, the wave beam that should keep to the side becomes by middle, but can not make the wave beam mis-behave.

Cobasis sheet multi-beam antenna in the utility model has 4 input ports, from different input port excitations, can generation amplitude equates, phase difference is-135 ° ,-45 °, 135 ° or 45 ° respectively pumping signal, to 4 foundation sheet integrated waveguides, 4 line of rabbet joint crack array antenna feeds, antenna array can produce 4 different wave beams that point to.

Beneficial effect: the utlity model has following advantage:

1 :) at millimeter wave frequency band, utilize substrate integration wave-guide not have the characteristic of mutual coupling, radiationless, complanation, Wave-packet shaping network and antenna array is directly integrated, realize cobasis sheet multi-beam antenna, compact conformation, reliability height.

2 :) this cobasis sheet multi-beam antenna do not have the 0dB coupler of any cross spider or alternative cross spider, and performance and utilize the multi-beam antenna of traditional B utler matrix feed similar.

3 :) work in millimeter wave frequency band with the form of planar circuit, be made on the dielectric substrate by common PCB technology, have the integrated convenience of active circuit, cost is low, precision is high, good reproducibility, is fit to advantages such as production in enormous quantities.Compare with the circuit that stereochemical structure such as metal waveguide realizes, performance is approaching, and volume is little, in light weight, processing is easy.

4 :) this cobasis sheet multi-beam antenna radiation efficiency height.

Description of drawings

Fig. 1 is the cross-sectional view of the high multi-beam antenna of the utility model radiation efficiency,

Fig. 2 is the planar structure schematic diagram of the high multi-beam antenna of the utility model radiation efficiency,

Have among the figure: the upper strata metal applies copper face 1, lower metal applies copper face 2, dielectric substrate 3, plated-through hole 4, chip integrated waveguide 90 ° directional coupler 51, chip integrated waveguide 90 ° directional coupler 52, chip integrated waveguide 90 ° directional coupler 53, chip integrated waveguide 90 ° directional coupler 54,45 ° of phase shifters 61 of substrate integration wave-guide, 45 ° of phase shifters 62 of substrate integration wave-guide, substrate integration wave-guide 4 line of rabbet joint crack array antennas 7, first input end mouth 81, second input port 82, the 3rd input port 83, four-input terminal mouth 84, perception Metallic rod 9.

Embodiment

The multi-beam antenna that radiation efficiency in the utility model is high comprises that the upper strata metal applies copper face 1, lower metal applies copper face 2, dielectric substrate 3, plated-through hole 4, chip integrated waveguide 90 ° directional coupler 51, chip integrated waveguide 90 ° directional coupler 52, chip integrated waveguide 90 ° directional coupler 53, chip integrated waveguide 90 ° directional coupler 54,45 ° of phase shifters 61 of substrate integration wave-guide, 45 ° of phase shifters 62 of substrate integration wave-guide, substrate integration wave-guide 4 line of rabbet joint crack array antennas 7, input port 81, input port 82, input port 83, input port 84, perception Metallic rod 9; The upper strata metal applies copper face 1, lower metal applies the upper and lower surface that copper face 2 lays respectively at dielectric substrate 3, and plated-through hole 4 passes dielectric substrate 3 and is connected and forms chip integrated waveguide 90 ° directional coupler 51, chip integrated waveguide 90 ° directional coupler 52, chip integrated waveguide 90 ° directional coupler 53, chip integrated waveguide 90 ° directional coupler 54,45 ° of phase shifters 61 of substrate integration wave-guide, 45 ° of phase shifters 62 of substrate integration wave-guide, substrate integration wave-guide 4 line of rabbet joint crack array antennas 7 with the deposited copper face 1 of upper strata metal, the deposited copper face 2 of lower metal; Input port 81 links to each other with first input port of chip integrated waveguide 90 ° directional coupler 51, input port 82 links to each other with second input port of chip integrated waveguide 90 ° directional coupler 51, input port 83 links to each other with first input port of chip integrated waveguide 90 ° directional coupler 52, and input port 84 links to each other with second input port of chip integrated waveguide 90 ° directional coupler 52; 45 ° of phase shifters 61 of substrate integration wave-guide, 45 ° of phase shifters 62 of substrate integration wave-guide utilize the substrate integration wave-guide of different in width to realize required phase-shift phase, one end of 45 ° of phase shifters 61 of substrate integration wave-guide links to each other with first delivery outlet of chip integrated waveguide 90 ° directional coupler 51, the other end links to each other with first input port of chip integrated waveguide 90 ° directional coupler 53, one end of 45 ° of phase shifters 62 of substrate integration wave-guide links to each other with first delivery outlet of chip integrated waveguide 90 ° directional coupler 52, and the other end links to each other with first input port of chip integrated waveguide 90 ° directional coupler 54; Second delivery outlet of chip integrated waveguide 90 ° directional coupler 51 links to each other with second input port of chip integrated waveguide 90 ° directional coupler 54, and second delivery outlet of chip integrated waveguide 90 ° directional coupler 52 links to each other with second input port of chip integrated waveguide 90 ° directional coupler 53; The input of 4 identical substrate integration wave-guide 4 line of rabbet joint crack array antennas 7 alternately is thrown into two ends and forms one 4 element antenna arrays, one terminal shortcircuit of each substrate integration wave-guide 4 line of rabbet joint crack array antenna 7, the other end respectively with first delivery outlet of chip integrated waveguide 90 ° directional coupler 53, chip integrated waveguide 90 ° directional coupler 54 first delivery outlet, second delivery outlet of chip integrated waveguide 90 ° directional coupler 53, chip integrated waveguide 90 ° directional coupler 54 second delivery outlet link to each other, each substrate integration wave-guide 4 line of rabbet joint crack array antenna 7 applies on the copper face 1 and the both sides that are positioned at center line have the slit, totally 4 at the upper strata metal; Corner at the substrate integration wave-guide circuit is equipped with a perceptual Metallic rod 9 to realize good coupling; Respectively from first input end mouth 81, second input port 82, the 3rd input port 83, four-input terminal mouth 84 feeds, can with the vertical plane of fluting direction on motivate the wave beam of 4 different sensings.

At the cobasis sheet multi-beam antenna of centre frequency 30GHz place realization, and test its overall performance based on eight ports knot.Substrate is selected Rogers Duroid 5880 for use, and its dielectric constant is 2.2, thickness 0.508mm.

The scope of test is that 28GHz is to 32GHz.From first input end mouth 81, second input port 82, the 3rd input port 83,84 excitations of four-input terminal mouth, at centre frequency 30GHz place, all return loss and The mutual coupling coefficient all are better than 20dB respectively.Antenna pattern is tested in the darkroom.During from 81 excitations of first input end mouth,, record its gain and be 13dBi at centre frequency 30GHz place, the 3dB lobe width is 32 °, and beam position is 15 °, and radiation efficiency is 44%, in the scope from 29GHz to 32GHz, the wave beam performance of different operating frequency is approaching, and only minor level worsens to some extent; During from 82 excitations of second input port,, record its gain and be 12.2dBi at centre frequency 30GHz place, the 3dB lobe width is 30 °, and beam position is 47 °, and radiation efficiency is 46%, in the scope from 29GHz to 32GHz, the wave beam performance of different operating frequency is approaching, and only minor level worsens to some extent.

Claims (3)

1. multi-beam antenna that radiation efficiency is high, it is characterized in that this cobasis sheet multi-beam antenna is a planar circuit structure, the upper strata metal applies copper face (1), lower metal applies the upper and lower surface that copper face (2) lays respectively at dielectric substrate (3), and plated-through hole (4) passes dielectric substrate (3) and applies copper face (1) with the upper strata metal, lower metal applies copper face (2) and is connected and forms chip integrated waveguide 90 ° directional coupler (51), chip integrated waveguide 90 ° directional coupler (52), chip integrated waveguide 90 ° directional coupler (53), chip integrated waveguide 90 ° directional coupler (54), 45 ° of phase shifters of substrate integration wave-guide (61), 45 ° of phase shifters of substrate integration wave-guide (62), substrate integration wave-guide 4 line of rabbet joint crack array antennas (7), perception Metallic rod (9); Input port (81) links to each other with first input port of chip integrated waveguide 90 ° directional coupler (51), input port (82) links to each other with second input port of chip integrated waveguide 90 ° directional coupler (51), input port (83) links to each other with first input port of chip integrated waveguide 90 ° directional coupler (52), and input port (84) links to each other with second input port of chip integrated waveguide 90 ° directional coupler (52); One end of 45 ° of phase shifters of first substrate integration wave-guide (61) links to each other with first delivery outlet of chip integrated waveguide 90 ° directional coupler (51), and the other end links to each other with first input port of chip integrated waveguide 90 ° directional coupler (53); One end of second 45 ° of phase shifter of substrate integration wave-guide (62) links to each other with first delivery outlet of chip integrated waveguide 90 ° directional coupler (52), and the other end links to each other with first input port of chip integrated waveguide 90 ° directional coupler (54); Second delivery outlet of chip integrated waveguide 90 ° directional coupler (51) links to each other with second input port of chip integrated waveguide 90 ° directional coupler (54), and second delivery outlet of chip integrated waveguide 90 ° directional coupler (52) links to each other with second input port of chip integrated waveguide 90 ° directional coupler (53); 4 identical substrate integration wave-guide 4 line of rabbet joint crack array antennas (7) are formed one 4 element antenna arrays, the input port of 4 foundation sheet integrated waveguides, 4 line of rabbet joint crack array antennas (7) respectively with first delivery outlet of chip integrated waveguide 90 ° directional coupler (53), chip integrated waveguide 90 ° directional coupler (54) first delivery outlet, chip integrated waveguide 90 ° directional coupler (53) second delivery outlet, chip integrated waveguide 90 ° directional coupler (54) second delivery outlet link to each other; Corner at the substrate integration wave-guide circuit is equipped with a perceptual Metallic rod (9) to realize good coupling.

2. the high multi-beam antenna of radiation efficiency according to claim 1, it is characterized by: 45 ° of first phase shifter of substrate integration wave-guide (61), 45 ° of second phase shifter of substrate integration wave-guide (62) are by regulating the position of plated-through hole (4), formation has the substrate integration wave-guide of different in width, its internal electromagnetic velocity of wave propagation of wide more substrate integration wave-guide is slow more, thereby realizes 45 ° of required phase-shift phases.

3. the high multi-beam antenna of radiation efficiency according to claim 1, it is characterized by: substrate integration wave-guide 4 line of rabbet joint crack array antennas (7) are positioned at the upper strata metal and apply on the copper face (1), form by unit, 4 line of rabbet joint cracks, the both sides that each unit, line of rabbet joint crack is positioned at center line have line of rabbet joint crack, form 4 element antenna arrays.

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