CN109586047A - A kind of 3 × 4 butler matrix feeding networks in broadband - Google Patents
A kind of 3 × 4 butler matrix feeding networks in broadband Download PDFInfo
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- CN109586047A CN109586047A CN201811492807.6A CN201811492807A CN109586047A CN 109586047 A CN109586047 A CN 109586047A CN 201811492807 A CN201811492807 A CN 201811492807A CN 109586047 A CN109586047 A CN 109586047A
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Classifications
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q21/00—Antenna arrays or systems
- H01Q21/0006—Particular feeding systems
- H01Q21/0075—Stripline fed arrays
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01P—WAVEGUIDES; RESONATORS, LINES, OR OTHER DEVICES OF THE WAVEGUIDE TYPE
- H01P5/00—Coupling devices of the waveguide type
- H01P5/12—Coupling devices having more than two ports
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01P—WAVEGUIDES; RESONATORS, LINES, OR OTHER DEVICES OF THE WAVEGUIDE TYPE
- H01P5/00—Coupling devices of the waveguide type
- H01P5/12—Coupling devices having more than two ports
- H01P5/16—Conjugate devices, i.e. devices having at least one port decoupled from one other port
- H01P5/18—Conjugate devices, i.e. devices having at least one port decoupled from one other port consisting of two coupled guides, e.g. directional couplers
- H01P5/184—Conjugate devices, i.e. devices having at least one port decoupled from one other port consisting of two coupled guides, e.g. directional couplers the guides being strip lines or microstrips
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q1/00—Details of, or arrangements associated with, antennas
- H01Q1/50—Structural association of antennas with earthing switches, lead-in devices or lightning protectors
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Abstract
The invention discloses a kind of 3 × 4 butler matrix feeding networks in broadband, which uses 3 input ports, and signal of the amplitudes such as generation as phase difference holding, can work in very wide frequency range in the frequency range of 2GHz-4GHz.The disadvantage that the feeding network replaces traditional transmission line inconsistent in wideband frequency phase using the coupled characteristic thermal compensation signal difference of broadband band-pass filter.The broadband constant power distributor used in the feeding network is designed on the basis of coupler, and power distribution is more easily adjusted than traditional power divider.The signal that phase difference is zero cannot be provided compared to traditional butler matrix cannot generate wave beam in turn in vertical direction, which can provide the signal that phase difference is zero therefore can generate wave beam in vertical direction.
Description
Technical field
The present invention relates to antenna feed electro-technical fields, and in particular to a kind of 3 × 4 butler matrix feeding networks in broadband.
Background technique
Due to the high speed development wirelessly communicated in recent years, either the universal of 4G technology, Internet of Things it is burning hot or 5G
It arrives, all indicate wireless technology and a booming peak period will be welcome.On the other hand, swift and violent with electronic information
Development, multibeam antenna can generate the direction with identical radiating aperture not due to its characteristic with multi-direction high-gain
Equidirectional different beams, are widely used and wireless communication system.The major technique solved these problems at present is to utilize wave
Beam switches smart antenna, and butler matrix can be realized wave beam shape as the pith for forming beam switchover smart antenna
At network, therefore also become one of research hotspot in recent years.Due to the bandwidth and feeding network frequency characteristic of aerial array
Influence, the bandwidth of multi-beam antenna array limited.In order to expand the bandwidth of operation of multibeam antenna, it would be highly desirable to bar in broadband
Teller matrix transmission network is designed.
More commonly used also eaily structure is intersected between input port and output port to butler matrix at present
The phase shifter for cascading three-dB coupler and special angle, makes the performance of butler matrix can achieve expected index.
The prior art is investigated, specific as follows:
2017, Krzysztof Wincza team proposed a job in an octave coverage (1.75GHz-
Wideband multi-beam antenna array 3.5GHz).Its feeding network is 4 × 4 Butler square of the typical work in low frequency
Intermediate two output ends of battle array cascade a three-stage Butler matrix above-mentioned again.In low frequency work be one 4 ×
4Butler Output matrix is slowly transferred to 2 × 2Butler matrix as frequency is got higher.Further, since aerial position is set
It sets, in low frequency operation, the distance of antenna element is quarter-wave, and slowly arrives high frequency and become half-wavelength.Due to transmission network
The good smoothness properties of network, so that entire antenna array is in the consistency that can keep wave beam in an octave coverage.But it works
It in the input port of 2 × 2 Butler matrix is equally two in the input port of 4 × 4 Butler matrix and work.
2018, Tzyh-Ghuang Ma et al. was expanded on the basis of 4 × 4Butler matrix.He is 4 × 4
Each output end of Butler matrix has cascaded two phase shifters, this phase shifter be by using two varactors and
The transmission line of one section of end short circuit is the T-type network composition for being equivalent to inductance composition.This T-type network can be equivalent to
One section of transmission line.By applying different voltage, the capacitance for changing varactor can change the length of equivalent transmission line.
By this simple design method, they are increased to the wave beam of 4 port 16 from the wave beam of original 4 port 4.Although this set
Meter is simple, but if bad the phenomenon that just will appear graing lobe is arranged.And smaller bandwidth.
Generally speaking, in existing work, there is the research much about butler matrix, but major part is all paid attention to
More beams how is realized in narrowband or how to switch heterogeneous networks to reach the working frequency in broadband.In addition, all set
It is difficult to realize that the butler matrix of meter forms wave beam in vertical direction.Therefore, the 3 × 4 of a novel broadband is designed
Butler matrix be of great significance.
Summary of the invention
The purpose of the present invention is to solve drawbacks described above in the prior art, provide a kind of 3 × 4 Butler squares in broadband
Battle array feeding network, the feeding network such as can export at the phase difference of amplitudes and adjacent output port in the range of 2GHz-4GHz
Respectively -90 °, 0 ° ,+90 °.The control of phase difference is controlled by input port, is inputted from different input ports, feeding network can
To export different phase differences, and total is symmetrical, easy to process.
The purpose of the present invention can be reached by adopting the following technical scheme that:
A kind of 3 × 4 butler matrix feeding networks in broadband, the feeding network includes being stacked from the bottom to top
First medium plate 22, second medium plate 23, third dielectric-slab 24,22 lower surface of first medium plate are provided with the first ground connection
Plate 20, the third dielectric-slab upper surface are provided with the second earth plate 21, the third dielectric-slab 24 and second medium plate
It is provided with upper layer microstrip line 26 between 23, is provided with lower layer's microstrip line between the first medium plate 22 and second medium plate 23
25;
The feeding network further includes 3dB/90 ° of the first broadband being made of upper layer microstrip line 26 and lower layer's microstrip line 25
Directional coupler 31,3dB/90 ° of the second broadband directional coupler 32,3dB/90 ° of third broadband directional coupler 33, the 4th broadband
3dB/90 ° of directional coupler 34, by the first input port for the feeding network that the second earth plate 21 and upper layer microstrip line 26 form
11, the second input port 12 of feeding network, by the third for the feeding network that the first earth plate 20 and lower layer's microstrip line 25 form
Input port 13, by the first output port 14, the transmission network of the feeding network that the second earth plate 21 and upper layer microstrip line 26 form
The third output port 16 of network, by the second output terminal mouth for the feeding network that the first earth plate 20 and lower layer's microstrip line 25 form
15, the 4th output port 17 of feeding network, the broadband cross network 5 being made of upper layer microstrip line 26 and lower layer's microstrip line 25,
The first wideband phase compensator 41, the second wideband phase compensator 42 being made of upper layer microstrip line 26 and lower layer's microstrip line 25,
The broadband constant power distributor 6 being made of upper layer microstrip line 26 and lower layer's microstrip line 25;
The first input port 11 of the feeding network is connected with the first input port 61 of broadband constant power distributor
It connects, the second of the first output port 62 of the broadband constant power distributor and 3dB/90 ° of the first broadband directional coupler is defeated
Inbound port 312 is connected, the second output terminal mouth 63 and 3dB/90 ° of the second broadband orientation coupling of the broadband constant power distributor
The first input port 321 of clutch is connected, and 3dB/90 ° of the second input port 12 of the feeding network and the first broadband are fixed
It is connected to the first input port 311 of coupler, the third input port 13 of the feeding network and the second broadband 3dB/
Second input port 322 of 90 ° of directional couplers is connected, and the first of 3dB/90 ° of the first broadband directional coupler is defeated
Exit port 313 is connected with the input port 411 of the first wideband phase compensator, 3dB/90 ° of the first broadband orientation coupling
The second output terminal mouth 314 of clutch is connected with the first input port 51 of broadband cross network, the second broadband 3dB/
The second output terminal mouth 324 of 90 ° of directional couplers is connected with the input port 421 of the second wideband phase compensator, described
First output port 323 of the second 3dB/90 ° of broadband directional coupler is connected with the second input port 52 of broadband cross network
It connects, the first input port 331 of 3dB/90 ° of the third broadband directional coupler and the output of the first wideband phase compensator
Port 412 is connected, the second input port 332 and broadband cross network of 3dB/90 ° of the third broadband directional coupler
The first output port 53 be connected, the first output port 333 and the feed of 3dB/90 ° of the third broadband directional coupler
First output port 14 of network is connected, the second output terminal mouth 334 of 3dB/90 ° of the third broadband directional coupler with
The second output terminal mouth 15 of feeding network is connected, the first input port of the 4th 3dB/90 ° of the broadband directional coupler
341 are connected with the second output terminal mouth 54 of broadband cross network, and the second of the 4th 3dB/90 ° of the broadband directional coupler
Input port 342 is connected with the output port 422 of the second wideband phase compensator, 3dB/90 ° of the 4th broadband orientation
First output port 343 of coupler is connected with the third output port 16 of feeding network, the 4th 3dB/90 ° of the broadband
The second output terminal mouth 344 of directional coupler is connected with the 4th output port 17 of feeding network.
Further, when signal is inputted from the first input port 11 of feeding network, the signal of input passes through broadband etc.
Power divider 6 orients 3dB/90 ° of signal equal-power transmissions to 3dB/90 ° of the first broadband directional coupler 31 and the second broadband
In coupler 32, signal is assigned to 41 He of the first wideband phase compensator by subsequent 3dB/90 ° of directional coupler in first broadband 31
In broadband cross network 5, then the first wideband phase compensator 41 inputs a signal into 3dB/90 ° of third broadband directional coupler
In 33, broadband cross network 5 is input a signal into the 4th 3dB/90 ° of broadband directional coupler 34;
Meanwhile signal is assigned to the second wideband phase compensator 42 and width by 3dB/90 ° of the second broadband directional coupler 32
In band crossover network 5, then the second wideband phase compensator 42 is input a signal into the 4th 3dB/90 ° of broadband directional coupler 34
In, broadband cross network 5 is input a signal into 3dB/90 ° of third broadband directional coupler 33;
The amplitudes such as four output ports output of last feeding network and the equal signal of phase difference.
Further, when signal is inputted from the second input port 12 of feeding network, signal passes through the first broadband 3dB/
90 ° of directional couplers 31 are by signal constant power and phase difference is that -90 ° of signals are separately input to 41 He of the first wideband phase compensator
Broadband cross network 5, then signal by the first wideband phase compensator is input to 3dB/90 ° of third broadband directional couple all the way
In device 33, in addition signal is input in the 4th 3dB/90 ° of broadband directional coupler 34 by broadband cross network 5 all the way, finally
The phase difference of the amplitudes such as four output ports output of feeding network and adjacent output port is+90 °;
When signal is inputted from the third input port 13 of feeding network, signal passes through 3dB/90 ° of the second broadband orientation coupling
Clutch 32 is by signal constant power and phase difference is that+90 ° of signals are separately input to the second wideband phase compensator 42 and broadband cross
Network 5, then signal is input in the 4th 3dB/90 ° of broadband directional coupler 34 by the second wideband phase compensator all the way,
In addition signal is input in 3dB/90 ° of third broadband directional coupler 33 by broadband cross network 5 all the way, last feeding network
The phase difference of amplitudes and the adjacent output port such as four output ports output be -90 °.
Further, when signal is inputted from the first input port 311 of 3dB/90 ° of the first broadband directional coupler, the
Second output of the first output port 313 and 3dB/90 ° of the first broadband directional coupler of one 3dB/90 ° of broadband directional coupler
Port 314 exports constant power, that is, 3dB signal, and the letter of the first output port 313 of 3dB/90 ° of the first broadband directional coupler
The difference of the signal phase of the second output terminal mouth 314 of number phase and 3dB/90 ° of the first broadband directional coupler is -90 °;Work as signal
When being inputted from the second input port 312 of 3dB/90 ° of the first broadband directional coupler, the first 3dB/90 ° of broadband directional coupler
The first output port 313 and 3dB/90 ° of the first broadband directional coupler second output terminal mouth 314 export constant power, that is, 3dB
Signal, and the signal phase and the first broadband 3dB/ of the first output port 313 of 3dB/90 ° of the first broadband directional coupler
The difference of the signal phase of the second output terminal mouth 314 of 90 ° of directional couplers is+90 °.
Further, when signal is inputted from the first input port 321 of 3dB/90 ° of the second broadband directional coupler, the
Second output of the first output port 323 and 3dB/90 ° of the second broadband directional coupler of two 3dB/90 ° of broadband directional couplers
Port 324 exports constant power, that is, 3dB signal, and the letter of the first output port 323 of 3dB/90 ° of the second broadband directional coupler
The difference of the signal phase of the second output terminal mouth 324 of number phase and 3dB/90 ° of the second broadband directional coupler is -90 °;Work as signal
When being inputted from the second input port 322 of 3dB/90 ° of the second broadband directional coupler, the second 3dB/90 ° of broadband directional coupler
The first output port 323 and 3dB/90 ° of the second broadband directional coupler second output terminal mouth 324 export constant power, that is, 3dB
Signal, and the signal phase and the second broadband 3dB/ of the first output port 323 of 3dB/90 ° of the second broadband directional coupler
The difference of the signal phase of the second output terminal mouth 324 of 90 ° of directional couplers is+90 °.
Further, when signal is inputted from the first input port 331 of 3dB/90 ° of third broadband directional coupler, the
Second output of the first output port 333 and 3dB/90 ° of third broadband directional coupler of three 3dB/90 ° of broadband directional couplers
Port 334 exports constant power, that is, 3dB signal, and the letter of the first output port 333 of 3dB/90 ° of third broadband directional coupler
The difference of the signal phase of the second output terminal mouth 334 of number phase and 3dB/90 ° of third broadband directional coupler is -90 °;Work as signal
When being inputted from the second input port 332 of 3dB/90 ° of third broadband directional coupler, 3dB/90 ° of third broadband directional coupler
The first output port 333 and 3dB/90 ° of third broadband directional coupler second output terminal mouth 334 export constant power, that is, 3dB
Signal, and the signal phase of the first output port 333 of 3dB/90 ° of third broadband directional coupler and third broadband 3dB/
The difference of the signal phase of the second output terminal mouth 334 of 90 ° of directional couplers is+90 °.
Further, when signal is inputted from the first input port 341 of the 4th 3dB/90 ° of broadband directional coupler, the
Second output of the first output port 343 and the 4th 3dB/90 ° of broadband directional coupler of four 3dB/90 ° of broadband directional couplers
Port 344 exports constant power, that is, 3dB signal, and the letter of the first output port 343 of the 4th 3dB/90 ° of broadband directional coupler
The difference of the signal phase of the second output terminal mouth 344 of number phase and the 4th 3dB/90 ° of broadband directional coupler is -90 °;Work as signal
When being inputted from the second input port 342 of the 4th 3dB/90 ° of broadband directional coupler, the 4th 3dB/90 ° of broadband directional coupler
The first output port 343 and the 4th 3dB/90 ° of broadband directional coupler second output terminal mouth 344 export constant power, that is, 3dB
Signal, and the signal phase and the 4th broadband 3dB/ of the first output port 343 of the 4th 3dB/90 ° of broadband directional coupler
The difference of the signal phase of the second output terminal mouth 344 of 90 ° of directional couplers is+90 °.
Further, when input port 411 input signal of the signal from the first wideband phase compensator, the first broadband phase
The phase shift exported and have -90 ° that the output port 412 of position compensator is lossless, and the function of being realized is in the range in broadband
Interior holding is stablized;When input port 421 input signal of the signal from the second wideband phase compensator, the compensation of the second wideband phase
Output that the output port 422 of device is lossless and -90 ° of phase shift is had, and the function of being realized is kept in the range of broadband
Stablize.
Further, when signal is inputted from the first input port 51 of broadband crossover network, signal can be from broadband cross
The loss-free output signal of second output terminal mouth 54 of network, the first input port 51 of the broadband cross network 5 will be for that will believe
Number from 21 lossless transmission of upper layer microstrip line to lower layer's microstrip line 22, the function of being realized can keep steady in the range of broadband
It is fixed.
When signal is inputted from the second input port 52 of broadband crossover network, signal can be from the first of broadband crossover network
The loss-free output signal of output port 53, the second input port 52 of the broadband cross network are used for signal from lower layer's micro-strip
To upper layer microstrip line 21, the function of being realized can keep stablizing in the range of broadband 22 lossless transmission of line.
Further, when signal is inputted from the first input port 61 of broadband constant power distributor, broadband constant power point
First output port 62 of the orchestration signal equal with 63 output amplitude of second output terminal mouth of broadband constant power distributor, the width
It is input to upper layer microstrip line 21 and lower layer's microstrip line 22 with what constant power distributor 6 was used to divide equally signal constant power, and institute is real
Existing function can keep stablizing in the range of broadband.
The present invention has the following advantages and effects with respect to the prior art:
1, the present invention is different from traditional butler matrix input end structure, using 3 input ports.
2, the signal that traditional butler matrix cannot provide that phase difference is zero cannot generate wave in vertical direction in turn
Beam, and the present invention can provide signal that phase difference is zero therefore can generate wave beam in vertical direction.
3,3 × 4 butler matrix disclosed by the invention such as can generate at amplitudes and the phase in the frequency range of 2GHz-4GHz
Potential difference keeps the same signal, can work in very wide frequency range.
4,3 × 4 butler matrix feeding network disclosed by the invention is compensated using the coupled characteristic of broadband band-pass filter
Disadvantage of the signal difference to replace traditional transmission line inconsistent in wideband frequency phase.
5, the broadband constant power distributor used in 3 × 4 butler matrix feeding network disclosed by the invention is to couple
It is designed on the basis of device, power distribution is more easily adjusted than traditional power divider.
6,3 × 4 butler matrix feed network structures disclosed by the invention are simple and compact, and the processing is simple, light-weight, processing
At low cost, work belt is wide, has a good application prospect.
Detailed description of the invention
Fig. 1 is a kind of structure chart of 3 × 4 butler matrix feeding networks in broadband disclosed in the present invention;
Fig. 2 is a kind of dielectric structure figure of 3 × 4 butler matrix feeding networks in broadband disclosed in the present invention;
Fig. 3 is that use in a kind of 3 × 4 butler matrix feeding networks in broadband disclosed in the present invention 3dB/90 ° is fixed
To the structure chart of coupler;
Fig. 4 is that the wideband phase used in a kind of 3 × 4 butler matrix feeding networks in broadband disclosed in the present invention is mended
Repay the structure chart of device;
Fig. 5 is the broadband cross net used in a kind of 3 × 4 butler matrix feeding networks in broadband disclosed in the present invention
The structure chart of network;
Fig. 6 is the broadband constant power used in a kind of 3 × 4 butler matrix feeding networks in broadband disclosed in the present invention
The structure chart of distributor;
Fig. 7 is a kind of 3 × 4 butler matrix feeding network catenation principle figures in broadband disclosed in the present invention;
Fig. 8 is the first defeated of feeding network in a kind of 3 × 4 butler matrix feeding networks in broadband disclosed in the present invention
Simulation result diagram when inbound port is fed;
Fig. 9 is the second defeated of feeding network in a kind of 3 × 4 butler matrix feeding networks in broadband disclosed in the present invention
Simulation result diagram when inbound port is fed;
Figure 10 is a kind of 3 × 4 butler matrix feeding networks in broadband disclosed in the present invention when each input port is defeated
When entering signal, the simulation result diagram of the phase difference of adjacent output port;
Wherein, the first input port of 11- feeding network, the second input port of 12- feeding network, 13- feeding network
Third input port, the first output port of 14- feeding network, the second output terminal mouth of 15- feeding network, 16- transmission network
The third output port of network, the 4th output port of 17- feeding network;The first earth plate of 20-, the second earth plate of 21-, 22-
One dielectric-slab, 23- second medium plate, 24- third dielectric-slab, 25- lower layer microstrip line, 26 upper layer microstrip lines;The first broadband 31-
3dB/90 ° of directional coupler, the first input port of 3dB/90 ° of the first broadband 311- directional coupler, the first broadband 312-
Second input port of 3dB/90 ° of directional coupler, the first output port of 3dB/90 ° of the first broadband 313- directional coupler,
The second output terminal mouth of 3dB/90 ° of the first broadband 314- directional coupler;3dB/90 ° of the second broadband 32- directional coupler, 321-
The first input port of second 3dB/90 ° of broadband directional coupler, the second of 3dB/90 ° of the second broadband 322- directional coupler are defeated
Inbound port, the first output port of 3dB/90 ° of the second broadband 323- directional coupler, 3dB/90 ° of the second broadband 324- orientation coupling
The second output terminal mouth of clutch;3dB/90 ° of broadband of 33- third directional coupler, 3dB/90 ° of broadband of 331- third directional coupler
First input port, the second input port of 3dB/90 ° of broadband of 332- third directional coupler, 333- third broadband 3dB/
First output port of 90 ° of directional couplers, the second output terminal mouth of 3dB/90 ° of broadband of 334- third directional coupler;34-
Four 3dB/90 ° of broadband directional couplers, the first input port of the 4th 3dB/90 ° of broadband directional coupler of 341-, 342- the 4th
Second input port of 3dB/90 ° of broadband directional coupler, the first output end of the 4th 3dB/90 ° of broadband directional coupler of 343-
Mouthful, the second output terminal mouth of the 4th 3dB/90 ° of broadband directional coupler of 344-;41- the first wideband phase compensator, 411- first
The input port of wideband phase compensator, the output port of 412- the first wideband phase compensator;The compensation of the second wideband phase of 42-
Device, the input port of 421- the second wideband phase compensator, the output port of 422- the second wideband phase compensator;It hands in the broadband 5-
Network is pitched, the first input port of 51- broadband cross network, the second input port of 52- broadband cross network, the broadband 53- is handed over
Pitch the first output port of network, the second output terminal mouth of 54- broadband cross network;The broadband 6- constant power distributor.
Specific embodiment
In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention
In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is
A part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art
Every other embodiment obtained without making creative work, shall fall within the protection scope of the present invention.
Embodiment
Ginseng as shown in FIGS. 1 and 2, a kind of 3 × 4 butler matrix feeding networks in broadband disclosed in the present embodiment, including under
The supreme first medium plate 22 being stacked, second medium plate 23, third dielectric-slab 24,22 lower surface of first medium plate
It is provided with the first earth plate 20, the third dielectric-slab upper surface is provided with the second earth plate 21, the third dielectric-slab
It is provided with upper layer microstrip line 26 between 24 and second medium plate 23, is set between the first medium plate 22 and second medium plate 23
It is equipped with lower layer's microstrip line 25;
The feeding network further includes 3dB/90 ° of the first broadband being made of upper layer microstrip line 26 and lower layer's microstrip line 25
Directional coupler 31,3dB/90 ° of the second broadband directional coupler 32,3dB/90 ° of third broadband directional coupler 33, the 4th broadband
3dB/90 ° of directional coupler 34, by the first input port for the feeding network that the second earth plate 21 and upper layer microstrip line 26 form
11, the second input port 12 of feeding network, by the third for the feeding network that the first earth plate 20 and lower layer's microstrip line 25 form
Input port 13, by the first output port 14, the transmission network of the feeding network that the second earth plate 21 and upper layer microstrip line 26 form
The third output port 16 of network, by the second output terminal mouth for the feeding network that the first earth plate 20 and lower layer's microstrip line 25 form
15, the 4th output port 17 of feeding network, the broadband cross network 5 being made of upper layer microstrip line 26 and lower layer's microstrip line 25,
The first wideband phase compensator 41, the second wideband phase compensator 42 being made of upper layer microstrip line 26 and lower layer's microstrip line 25,
The broadband constant power distributor 6 being made of upper layer microstrip line 26 and lower layer's microstrip line 25.
In the present embodiment design, the dielectric constant of first medium plate 22, second medium plate 23 and third dielectric-slab 24 is
2.55, loss angle tangent 0.0029.The thickness of first medium plate 22 and third dielectric-slab 4 is 1.5 millimeters;Second medium plate
23 with a thickness of 0.25 millimeter.
It is shown in Figure 3, it is shown that a kind of 3 × 4 butler matrix feeding network middle width strip 3dB/ in broadband of the invention
90 ° of directional couplers.The first input port 311, the first broadband 3dB/ in figure including 3dB/90 ° of the first broadband directional coupler
Second input port 312 of 90 ° of directional couplers;The first output port including 3dB/90 ° of the first broadband directional coupler
313, the second output terminal mouth 314 of 3dB/90 ° of the first broadband directional coupler.It include 3dB/90 ° of the second broadband orientation coupling in figure
First input port 321 of clutch, 3dB/90 ° of the second broadband directional coupler the second input port 322;Including the second broadband
The second output terminal mouth of first output port 323 of 3dB/90 ° of directional coupler, 3dB/90 ° of the second broadband directional coupler
324.The first input port 331,3dB/90 ° of third broadband directional couple in figure including 3dB/90 ° of third broadband directional coupler
Second input port 332 of device;Including the first output port 333 of 3dB/90 ° of third broadband directional coupler, third broadband
The second output terminal mouth 334 of 3dB/90 ° of directional coupler.First including the 4th 3dB/90 ° of broadband directional coupler is defeated in figure
Second input port 342 of entrance 341, the 4th 3dB/90 ° of broadband directional coupler;Including 3dB/90 ° of the 4th broadband orientation coupling
The second output terminal mouth 344 of first output port 343 of clutch, the 4th 3dB/90 ° of broadband directional coupler.When signal is from first
When the first input port 311 of 3dB/90 ° of broadband directional coupler inputs, the first of the first 3dB/90 ° of broadband directional coupler
The second output terminal mouth 314 of output port 313 and 3dB/90 ° of the first broadband directional coupler exports constant power, that is, 3dB signal,
And the signal phase and 3dB/90 ° of the first broadband orientation coupling of the first output port 313 of 3dB/90 ° of the first broadband directional coupler
The difference of the signal phase of the second output terminal mouth 314 of clutch is -90 °;When signal is from 3dB/90 ° of the first broadband directional coupler
When second input port 312 inputs, the first output port 313 of the first 3dB/90 ° of broadband directional coupler and the first broadband
The second output terminal mouth 314 of 3dB/90 ° of directional coupler can export the constant power i.e. signal of 3dB, and 3dB/90 ° of the first broadband is fixed
To the signal phase of the first output port 313 of coupler and the second output terminal mouth of 3dB/90 ° of the first broadband directional coupler
The difference of 314 signal phase is+90 °;The working principle of other three 3dB/90 ° of broadband directional couplers is the same.
When signal is inputted from the first input port 321 of 3dB/90 ° of the second broadband directional coupler, the second broadband 3dB/
324 meeting of second output terminal mouth of the first output port 323 and 3dB/90 ° of the second broadband directional coupler of 90 ° of directional couplers
Export constant power, that is, 3dB signal, and the signal phase of the first output port 323 of 3dB/90 ° of the second broadband directional coupler
Difference with the signal phase of the second output terminal mouth 324 of 3dB/90 ° of the second broadband directional coupler is -90 °;When signal is from second
When the second input port 322 input of 3dB/90 ° of broadband directional coupler, the first of the second 3dB/90 ° of broadband directional coupler
The second output terminal mouth 324 of output port 323 and 3dB/90 ° of the second broadband directional coupler can export the constant power i.e. letter of 3dB
Number, and 3dB/90 ° of the signal phase of the first output port 323 of 3dB/90 ° of the second broadband directional coupler and the second broadband are fixed
Difference to the signal phase of the second output terminal mouth 324 of coupler is+90 °.
When signal is inputted from the first input port 331 of 3dB/90 ° of third broadband directional coupler, third broadband 3dB/
334 meeting of second output terminal mouth of the first output port 333 and 3dB/90 ° of third broadband directional coupler of 90 ° of directional couplers
Export constant power, that is, 3dB signal, and the signal phase of the first output port 333 of 3dB/90 ° of third broadband directional coupler
Difference with the signal phase of the second output terminal mouth 334 of 3dB/90 ° of third broadband directional coupler is -90 °;When signal is from third
When the second input port 332 input of 3dB/90 ° of broadband directional coupler, the first of 3dB/90 ° of third broadband directional coupler
The second output terminal mouth 334 of output port 333 and 3dB/90 ° of third broadband directional coupler can export the constant power i.e. letter of 3dB
Number, and 3dB/90 ° of the signal phase of the first output port 333 of 3dB/90 ° of third broadband directional coupler and third broadband are fixed
Difference to the signal phase of the second output terminal mouth 334 of coupler is+90 °.
When signal is inputted from the first input port 341 of the 4th 3dB/90 ° of broadband directional coupler, the 4th broadband 3dB/
344 meeting of second output terminal mouth of the first output port 343 and the 4th 3dB/90 ° of broadband directional coupler of 90 ° of directional couplers
Export constant power, that is, 3dB signal, and the signal phase of the first output port 343 of the 4th 3dB/90 ° of broadband directional coupler
Difference with the signal phase of the second output terminal mouth 344 of the 4th 3dB/90 ° of broadband directional coupler is -90 °;When signal is from the 4th
When the second input port 342 input of 3dB/90 ° of broadband directional coupler, the first of the 4th 3dB/90 ° of broadband directional coupler
The second output terminal mouth 344 of output port 343 and the 4th 3dB/90 ° of broadband directional coupler can export the constant power i.e. letter of 3dB
Number, and 3dB/90 ° of the signal phase of the first output port 343 of the 4th 3dB/90 ° of broadband directional coupler and the 4th broadband are fixed
Difference to the signal phase of the second output terminal mouth 344 of coupler is+90 °.
It is shown in Figure 4, it is shown that a kind of 3 × 4 butler matrix feeding network middle width strip phases in broadband of the invention
Compensator.The output port of input port 411 and the first wideband phase compensator in figure including the first wideband phase compensator
412, the output port 422 of the input port 421 of the second wideband phase compensator and the second wideband phase compensator.When signal from
When 411 input signal of input port of the first wideband phase compensator, the output port 412 of the first wideband phase compensator is lossless
Consumption exports and has -90 ° of phase shift, and the function of being realized can keep stablizing in the range of broadband.Second broadband phase
The function of position compensator is as the function of the first wideband phase compensator.When signal is from the input of the second wideband phase compensator
When 421 input signal of port, output that the output port 422 of the second wideband phase compensator is lossless and -90 ° of phase shift is had,
And the function of being realized can keep stablizing in the range of broadband.
It is shown in Figure 5, it is shown that a kind of 3 × 4 butler matrix feeding network middle width strips in broadband of the invention intersect
Network.It include the first input port 51 of broadband cross network, the second input port 52 of broadband cross network, broadband friendship in figure
Pitch the first output port 53 of network, the second output terminal mouth 54 of broadband cross network.When signal is from the of broadband crossover network
When one input port 51 inputs, signal can be from the loss-free output signal of second output terminal mouth 54 of broadband crossover network, broadband
The effect of the first input port 51 of crossover network 5 is mainly by signal from 21 lossless transmission of upper layer microstrip line to lower layer's micro-strip
Line 22, the function of being realized can keep stablizing in the range of broadband.
When signal is inputted from the second input port 52 of broadband crossover network, signal can be from the first of broadband crossover network
The loss-free output signal of output port 53, the effect of the second input port 52 of broadband cross network is mainly by signal under
To upper layer microstrip line 21, the function of being realized can keep stablizing in the range of broadband layer 22 lossless transmission of microstrip line.
It is shown in Figure 6, it is shown that a kind of function such as 3 × 4 butler matrix feeding network middle width strips in broadband of the invention
Rate distributor.First output of first input port 61, broadband constant power distributor in figure including broadband constant power distributor
Port 62, broadband constant power distributor second output terminal mouth 63.When signal is from the first input end of broadband constant power distributor
When mouth 61 inputs, the first output port 62 of broadband constant power distributor and the second output terminal mouth 63 of broadband constant power distributor
The equal signal of output amplitude, the main function of broadband constant power distributor 6 are to be input to upper layer for what signal constant power was divided equally
Microstrip line 21 and lower layer's microstrip line 22, and the function of being realized can keep stablizing in the range of broadband.
It is shown in Figure 7, a kind of catenation principle of 3 × 4 butler matrix feeding networks in broadband provided in this embodiment
Figure.The first input port 11 of feeding network is connected with the first input port 61 of broadband constant power distributor;The function such as broadband
First output port 62 of rate distributor is connected with the second input port 312 of 3dB/90 ° of the first broadband directional coupler;It is wide
321 phase of first input port of second output terminal mouth 63 with constant power distributor and 3dB/90 ° of the second broadband directional coupler
Connection;Second input port 12 of feeding network is connected with the first input port 311 of 3dB/90 ° of the first broadband directional coupler
It connects;The third input port 13 of feeding network is connected with the second input port 322 of 3dB/90 ° of the second broadband directional coupler
It connects;First output port 313 of the first 3dB/90 ° of broadband directional coupler and the input port of the first wideband phase compensator
411 are connected;First input of the second output terminal mouth 314 and broadband cross network of the first 3dB/90 ° of broadband directional coupler
Port 51 is connected;The second output terminal mouth 324 of second 3dB/90 ° of broadband directional coupler and the second wideband phase compensator
Input port 421 is connected;The first output port 323 and the broadband cross network of second 3dB/90 ° of broadband directional coupler
Second input port 52 is connected;The first input port 331 and the first wideband phase of 3dB/90 ° of third broadband directional coupler
The output port 412 of compensator is connected;The second input port 332 and the broadband of 3dB/90 ° of third broadband directional coupler are handed over
First output port 53 of fork network is connected;The first output port 333 and the feed of 3dB/90 ° of third broadband directional coupler
First output port 14 of network is connected;The second output terminal mouth 334 and transmission network of 3dB/90 ° of third broadband directional coupler
The second output terminal mouth 15 of network is connected;The first input port 341 and broadband cross of 4th 3dB/90 ° of broadband directional coupler
The second output terminal mouth 54 of network is connected;Second input port 342 of the 4th 3dB/90 ° of broadband directional coupler and second wide
Output port 422 with phase compensator is connected;First output port 343 of the 4th 3dB/90 ° of broadband directional coupler with
The third output port 16 of feeding network is connected;The second output terminal mouth 344 of 4th 3dB/90 ° of broadband directional coupler and feedback
4th output port 17 of electric network is connected;Used connecting line is the microstrip line of 50 Ω.
When signal is inputted from the first input port 11 of feeding network, the signal of input passes through broadband constant power distributor
6 by signal equal-power transmissions to 3dB/90 ° of the first broadband directional coupler 31 and 3dB/90 ° of the second broadband directional coupler 32
In.Then, signal is assigned to the first wideband phase compensator 41 and broadband cross by 3dB/90 ° of the first broadband directional coupler 31
In network 5, then the first wideband phase compensator 41 is input a signal into 3dB/90 ° of third broadband directional coupler 33, wide
Band crossover network 5 is input a signal into the 4th 3dB/90 ° of broadband directional coupler 34.And 3dB/90 ° of the second broadband orientation coupling
Signal transimiison analysis in clutch 32 is identical as the signal transimiison analysis in 3dB/90 ° of the first broadband directional coupler 31.Second
Signal is assigned in the second wideband phase compensator 42 and broadband cross network 5 by 3dB/90 ° of broadband directional coupler 32, then
Second wideband phase compensator 42 is input a signal into the 4th 3dB/90 ° of broadband directional coupler 34, and broadband cross network 5 will
Signal is input in 3dB/90 ° of third broadband directional coupler 33.
Four output ports of last feeding network such as can export at amplitudes and the equal signal of phase difference.
When signal is inputted from the second input port 12 of feeding network, signal passes through 3dB/90 ° of the first broadband orientation coupling
Clutch 31 is by signal constant power and phase difference is that -90 ° of signals are separately input to the first wideband phase compensator 41 and broadband cross
Network 5, then signal is input in 3dB/90 ° of third broadband directional coupler 33 by the first wideband phase compensator all the way,
In addition signal is input in the 4th 3dB/90 ° of broadband directional coupler 34 by broadband cross network 5 all the way, last feeding network
Four output ports the amplitudes and the phase difference of adjacent output port such as can to export be+90 °.
When signal is inputted from the third input port 13 of feeding network, the second input port 12 of analysis and feeding network
Identical, only the phase difference of output signal is -90 °.Signal passes through 3dB/90 ° of the second broadband directional coupler 32 for function such as signals
Rate and phase difference are that+90 ° of signals are separately input to the second wideband phase compensator 42 and broadband cross network 5, are then believed all the way
It number is input in the 4th 3dB/90 ° of broadband directional coupler 34 by the second wideband phase compensator, in addition signal passes through all the way
Broadband cross network 5 is input in 3dB/90 ° of third broadband directional coupler 33, and four output ports of last feeding network can
With the phase difference of the amplitudes such as output and adjacent output port for -90 °.
It is shown in Figure 8, it is shown that a kind of 3 × 4 butler matrix feeding networks in broadband of the invention are worked as from transmission network
The simulation result when first input port 11 of network is fed.From simulation result it can be seen that, it is each within the scope of 2GHz-4GHz
Output port substantially constant power exports.
It is shown in Figure 9, it is shown that a kind of 3 × 4 butler matrix feeding networks in broadband of the invention are worked as from transmission network
Simulation result when the second input port 12 feed of network.From simulation result it can be seen that, it is each within the scope of 2GHz-4GHz
Output port substantially constant power exports.
It is shown in Figure 10, it is shown that a kind of 3 × 4 butler matrix feeding networks in broadband of the invention work as each input
When the input signal of port, the phase difference of adjacent output port.From simulation result it can be seen that, it is each within the scope of 2GHz-4GHz
Phase difference between output port is basicly stable.When from 11 input signal of first input port of feeding network, output port
Phase difference be 0 °, in figure shown in P1;When from the second 12 input signal of input port of feeding network, the phase of output port
Difference is+90 °, in figure shown in P2;When from third 13 input signal of input port of feeding network, the phase difference of output port
It is -90 °, in figure shown in P3.Characteristic meets the characteristic of butler matrix well, and different with traditional Butler phase distribution
Sample.Bandwidth of operation also reaches 2GHz-4GHz, an octave coverage.P4-P5 represents the first output port of feeding network 14 in figure
Signal subtracts the signal of the second output terminal mouth 15 of feeding network.P5-P6 represents feeding network second output terminal mouth 15 in figure
Signal subtracts the signal of the third output port 15 of feeding network.P6-P7 represents feeding network third output port 15 in figure
Signal subtracts the signal of the 4th output port 17 of feeding network.
The above embodiment is a preferred embodiment of the present invention, but embodiments of the present invention are not by above-described embodiment
Limitation, other any changes, modifications, substitutions, combinations, simplifications made without departing from the spirit and principles of the present invention,
It should be equivalent substitute mode, be included within the scope of the present invention.
Claims (10)
1. a kind of 3 × 4 butler matrix feeding networks in broadband, which is characterized in that the feeding network includes from the bottom to top
First medium plate (22), second medium plate (23), the third dielectric-slab (24) being stacked, under the first medium plate (22)
Surface is provided with the first earth plate (20), and the third dielectric-slab upper surface is provided with the second earth plate (21), and described
It is provided between three dielectric-slabs (24) and second medium plate (23) upper layer microstrip line (26), the first medium plate (22) and the
Lower layer's microstrip line (25) are provided between second medium plate (23);
The feeding network further includes 3dB/90 ° of the first broadband being made of upper layer microstrip line (26) and lower layer's microstrip line (25)
Directional coupler (31), 3dB/90 ° of the second broadband directional coupler (32), 3dB/90 ° of third broadband directional coupler (33),
Four 3dB/90 ° of broadband directional couplers (34), the feeding network being made of the second earth plate (21) and upper layer microstrip line (26)
The second input port (12) of first input port (11), feeding network, by the first earth plate (20) and lower layer's microstrip line (25)
The third input port (13) of the feeding network of composition, the transmission network being made of the second earth plate (21) and upper layer microstrip line (26)
The third output port (16) of the first output port (14) of network, feeding network, by the first earth plate (20) and lower layer's microstrip line
(25) the 4th output port (17) of the second output terminal mouth (15) of the feeding network formed, feeding network, by upper layer microstrip line
(26) and lower layer's microstrip line (25) composition broadband cross network (5), by upper layer microstrip line (26) and lower layer's microstrip line (25) group
At the first wideband phase compensator (41), the second wideband phase compensator (42), by upper layer microstrip line (26) and lower layer's micro-strip
The broadband constant power distributor (6) of line (25) composition;
The first input port (11) of the feeding network is connected with the first input port (61) of broadband constant power distributor
It connects, the first output port (62) of the broadband constant power distributor and the second of 3dB/90 ° of the first broadband directional coupler
Input port 312 is connected, and 3dB/90 ° of the second output terminal mouth (63) of the broadband constant power distributor and the second broadband are fixed
It is connected to the first input port (321) of coupler, the second input port (12) of the feeding network and the first broadband
The first input port (311) of 3dB/90 ° of directional coupler is connected, the third input port (13) of the feeding network with
The second input port (322) of second 3dB/90 ° of broadband directional coupler is connected, 3dB/90 ° of the first broadband orientation
The first output port (313) of coupler is connected with the input port (411) of the first wideband phase compensator, and described first
The second output terminal mouth (314) of 3dB/90 ° of broadband directional coupler is connected with the first input port (51) of broadband cross network
It connects, the second output terminal mouth (324) of 3dB/90 ° of the second broadband directional coupler is defeated with the second wideband phase compensator
Inbound port (421) is connected, and the first output port (323) of 3dB/90 ° of the second broadband directional coupler and broadband are handed over
Second input port 52 of fork network is connected, the first input port of 3dB/90 ° of the third broadband directional coupler
(331) it is connected with the output port (412) of the first wideband phase compensator, 3dB/90 ° of the third broadband directional couple
The second input port (332) of device is connected with the first output port 53 of broadband cross network, the third broadband 3dB/
The first output port (333) of 90 ° of directional couplers is connected with the first output port (14) of feeding network, the third
The second output terminal mouth (334) of 3dB/90 ° of broadband directional coupler is connected with the second output terminal mouth (15) of feeding network, institute
The first input port (341) for the 4th 3dB/90 ° of the broadband directional coupler stated and the second output terminal mouth of broadband cross network
54 are connected, and the second input port (342) and the second wideband phase of the 4th 3dB/90 ° of the broadband directional coupler compensate
The output port (422) of device is connected, the first output port (343) of the 4th 3dB/90 ° of the broadband directional coupler with
The third output port (16) of feeding network is connected, the second output terminal of the 4th 3dB/90 ° of the broadband directional coupler
Mouth (344) is connected with the 4th output port (17) of feeding network.
2. a kind of 3 × 4 butler matrix feeding networks in broadband according to claim 1, which is characterized in that when signal from
When first input port (11) input of feeding network, the signal of input passes through broadband constant power distributor (6) for function such as signals
Rate is transferred in 3dB/90 ° of the first broadband directional coupler (31) and 3dB/90 ° of the second broadband directional coupler (32), and subsequent
Signal is assigned to the first wideband phase compensator (41) and broadband cross network by one 3dB/90 ° of broadband directional coupler (31)
(5) in, then the first wideband phase compensator (41) is input a signal into 3dB/90 ° of third broadband directional coupler (33),
Broadband cross network (5) is input a signal into the 4th 3dB/90 ° of broadband directional coupler (34);
Meanwhile signal is assigned to the second wideband phase compensator (42) and width by 3dB/90 ° of the second broadband directional coupler (32)
In band crossover network (5), then the second wideband phase compensator (42) is input a signal into the 4th 3dB/90 ° of broadband directional couple
In device (34), broadband cross network (5) is input a signal into 3dB/90 ° of third broadband directional coupler (33);
The amplitudes such as four output ports output of last feeding network and the equal signal of phase difference.
3. a kind of 3 × 4 butler matrix feeding networks in broadband according to claim 1, which is characterized in that when signal from
When the second input port (12) input of feeding network, signal passes through 3dB/90 ° of the first broadband directional coupler (31) for signal
Constant power and phase difference are that -90 ° of signals are separately input to the first wideband phase compensator (41) and broadband cross network (5), so
Signal is input in 3dB/90 ° of third broadband directional coupler (33) by the first wideband phase compensator all the way afterwards, and in addition one
Road signal is input in the 4th 3dB/90 ° of broadband directional coupler (34) by broadband cross network (5), last feeding network
The phase difference of the amplitudes such as four output port output and adjacent output port is+90 °;
When signal is inputted from the third input port (13) of feeding network, signal passes through 3dB/90 ° of the second broadband directional couple
Device (32) is by signal constant power and phase difference is that+90 ° of signals are separately input to the second wideband phase compensator (42) and broadband is handed over
It pitches network (5), then signal by the second wideband phase compensator is input to the 4th 3dB/90 ° of broadband directional coupler all the way
(34) in, in addition signal is input in 3dB/90 ° of third broadband directional coupler (33) by broadband cross network (5) all the way,
The phase difference of the amplitudes such as four output ports output of last feeding network and adjacent output port is -90 °.
4. a kind of 3 × 4 butler matrix feeding networks in broadband according to claim 1, which is characterized in that when signal from
When first input port (311) input of the first 3dB/90 ° of broadband directional coupler, the first 3dB/90 ° of broadband directional coupler
The first output port (313) and 3dB/90 ° of the first broadband directional coupler second output terminal mouth (314) output constant power be
The signal of 3dB, and the signal phase of the first output port (313) of 3dB/90 ° of the first broadband directional coupler and the first broadband
The difference of the signal phase of the second output terminal mouth (314) of 3dB/90 ° of directional coupler is -90 °;When signal is from the first broadband 3dB/
When the second input port 312 input of 90 ° of directional couplers, the first output port of the first 3dB/90 ° of broadband directional coupler
(313) and the second output terminal mouth (314) of 3dB/90 ° of the first broadband directional coupler exports constant power, that is, 3dB signal, and the
The signal phase and 3dB/90 ° of the first broadband directional couple of the first output port (313) of one 3dB/90 ° of broadband directional coupler
The difference of the signal phase of the second output terminal mouth (314) of device is+90 °.
5. a kind of 3 × 4 butler matrix feeding networks in broadband according to claim 1, which is characterized in that when signal from
When first input port (321) input of the second 3dB/90 ° of broadband directional coupler, the second 3dB/90 ° of broadband directional coupler
The first output port (323) and 3dB/90 ° of the second broadband directional coupler second output terminal mouth (324) output constant power be
The signal of 3dB, and the signal phase of the first output port (323) of 3dB/90 ° of the second broadband directional coupler and the second broadband
The difference of the signal phase of the second output terminal mouth (324) of 3dB/90 ° of directional coupler is -90 °;When signal is from the second broadband 3dB/
When the second input port (322) input of 90 ° of directional couplers, the first output end of the second 3dB/90 ° of broadband directional coupler
The second output terminal mouth (324) of mouth (323) and 3dB/90 ° of the second broadband directional coupler exports constant power, that is, 3dB signal, and
The signal phase and 3dB/90 ° of the second broadband orientation coupling of the first output port (323) of second 3dB/90 ° of broadband directional coupler
The difference of the signal phase of the second output terminal mouth (324) of clutch is+90 °.
6. a kind of 3 × 4 butler matrix feeding networks in broadband according to claim 1, which is characterized in that when signal from
When first input port (331) input of 3dB/90 ° of third broadband directional coupler, 3dB/90 ° of third broadband directional coupler
The first output port (333) and 3dB/90 ° of third broadband directional coupler second output terminal mouth (334) output constant power be
The signal of 3dB, and the signal phase of the first output port (333) of 3dB/90 ° of third broadband directional coupler and third broadband
The difference of the signal phase of the second output terminal mouth (334) of 3dB/90 ° of directional coupler is -90 °;When signal is from third broadband 3dB/
When the second input port (332) input of 90 ° of directional couplers, the first output end of 3dB/90 ° of third broadband directional coupler
The second output terminal mouth (334) of mouth (333) and 3dB/90 ° of third broadband directional coupler exports constant power, that is, 3dB signal, and
The signal phase and 3dB/90 ° of third broadband orientation coupling of the first output port (333) of 3dB/90 ° of third broadband directional coupler
The difference of the signal phase of the second output terminal mouth (334) of clutch is+90 °.
7. a kind of 3 × 4 butler matrix feeding networks in broadband according to claim 1, which is characterized in that when signal from
When first input port (341) input of the 4th 3dB/90 ° of broadband directional coupler, the 4th 3dB/90 ° of broadband directional coupler
The first output port (343) and the 4th 3dB/90 ° of broadband directional coupler second output terminal mouth (344) output constant power be
The signal of 3dB, and the signal phase of the first output port (343) of the 4th 3dB/90 ° of broadband directional coupler and the 4th broadband
The difference of the signal phase of the second output terminal mouth (344) of 3dB/90 ° of directional coupler is -90 °;When signal is from the 4th broadband 3dB/
When the second input port (342) input of 90 ° of directional couplers, the first output end of the 4th 3dB/90 ° of broadband directional coupler
The second output terminal mouth (344) of mouth (343) and the 4th 3dB/90 ° of broadband directional coupler exports constant power, that is, 3dB signal, and
The signal phase and 3dB/90 ° of the 4th broadband orientation coupling of the first output port (343) of 4th 3dB/90 ° of broadband directional coupler
The difference of the signal phase of the second output terminal mouth (344) of clutch is+90 °.
8. a kind of 3 × 4 butler matrix feeding networks in broadband according to claim 1, which is characterized in that when signal from
When input port (411) input signal of the first wideband phase compensator, the output port (412) of the first wideband phase compensator
The lossless phase shift exported and have -90 °, and the function of being realized keeps stablizing in the range of broadband;When signal is from
When input port (421) input signal of two wideband phase compensators, output port (422) nothing of the second wideband phase compensator
Loss exports and has -90 ° of phase shift, and the function of being realized keeps stablizing in the range of broadband.
9. a kind of 3 × 4 butler matrix feeding networks in broadband according to claim 1, which is characterized in that when signal from
When first input port (51) input of broadband cross network, signal can be from second output terminal mouth (54) nothing of broadband crossover network
The output signal of loss, the first input port (51) of the broadband cross network are used for signal is lossless from upper layer microstrip line (21)
Consumption is transferred to lower layer's microstrip line (22), and the function of being realized can keep stablizing in the range of broadband;
When signal is inputted from the second input port (52) of broadband crossover network, signal can be defeated from the first of broadband crossover network
Exit port (53) loss-free output signal, the second input port (52) of the broadband cross network are used for signal is micro- from lower layer
To upper layer microstrip line (21), the function of being realized can keep stablizing in the range of broadband band line (22) lossless transmission.
10. a kind of 3 × 4 butler matrix feeding networks in broadband according to claim 1, which is characterized in that work as signal
When being inputted from the first input port (61) of broadband constant power distributor, the first output port (62) of broadband constant power distributor
The signal equal with second output terminal mouth (63) output amplitude of broadband constant power distributor, the broadband constant power distributor (6)
Upper layer microstrip line (21) and lower layer's microstrip line (22) are input to for divide signal constant power equally, and the function of being realized can be with
It keeps stablizing in the range of broadband.
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