CN201576740U

CN201576740U - Dielectric-loaded four-arm helical antenna for power distribution phase shift feed network

Info

Publication number: CN201576740U
Application number: CN2009202383402U
Authority: CN
Inventors: 褚庆昕; 杜述; 刘沙
Original assignee: South China University of Technology SCUT
Current assignee: South China University of Technology SCUT
Priority date: 2009-10-31
Filing date: 2009-10-31
Publication date: 2010-09-08
Anticipated expiration: 2019-10-31

Abstract

The utility model discloses a dielectric-loaded four-arm helical antenna for power distribution phase shift feed network, which comprises a feed network and a metal helical antenna; the feed network is assembled by a micro-strip dielectric slab placed vertically together with a micro-strip dielectric slab (1), a middle floor (6) and a micro-strip dielectric slab (2) stacked up and down; wherein, the middle floor (6) is connected with the ground of the micro-strip dielectric slab (3) through a long short circuit piece (8), the other surface of the micro-strip dielectric slab (3) is provided with a dielectric cylinder (17), four metal helical wires (18)-(21) are loaded on the dielectric cylinder (17); a power distributor 1 is printed on the surface of the micro-strip dielectric slab (1) opposite to the middle floor (6), and a power distributor 2 is printed on the surface of the micro-strip dielectric slab (2) opposite to the middle floor (6); a phase shifter composed of four 50 ohm micro-strip transmission lines (9)-(12) are printed on the surface of the micro-strip dielectric slab (3) opposite to the dielectric cylinder (17). The dielectric-loaded four-arm helical antenna has good broadband circular polarization characteristic.

Description

A kind of merit divides the medium of phase shift feeding network to load four-arm spiral antenna

Technical field

The utility model relates to medium loading helical antenna, particularly a kind ofly adopts novel merit to divide phase shift network feed, can work in the wideband section, small size, is applicable to that the medium of handheld terminal loads four-arm spiral antenna.

Background technology

In recent years, the service of satellite communication network more and more comes into one's own.Along with GPS and the Big Dipper use universal day by day, press for a kind of can be whenever and wherever possible and the portable mobile termianl of satellite communication.Antenna is as " knowledge " of receiver, and its performance directly influences the quality of receiver signal.

Circular polarization four-arm spiral antenna is proposed in nineteen sixty-eight by C.C.Kilgus the earliest.This structure is made of four metal spiral lines, by coaxial pair four wires feeds, and, make four lines have 90 ° of electrical length poor in feed end introducing phase shift, thereby make two adjacent wires have the constant-amplitude signal of 90 ° of phase differences, just can produce cordate circular polarization directional diagram.This structure has the advantage that does not need the ground connection reflecting plate, and the circular polarization performance when the low elevation angle also can satisfy the requirement of satellite communication, and the overall dimensions of medium aft antenna that particularly loads high-k is very little, thereby is applied to the portable satellite communications terminal.Patent US5859621, US6369776B1, US64243161B and US6886237B2 belong to this kind structure.But, because being different length by four wires, this structure produces 90 ° of phase differences, and along with the raising of loaded medium dielectric constant, 90 ° of phase difference bandwidth are very narrow, and not only requirement on machining accuracy is too high, and is difficult for revising adjustment.In addition, owing to adopt coaxial internal and external conductor to the helix feed, thereby have the problem of uneven feed, need Ba Lun circuit (Balun) design.

Calendar year 2001, the Oliver Leisten of Britain Sarantel antenna company has proposed a kind of novel four-arm spiral antenna medium loading four-arm spiral antenna (DQHA) one by one.Its radiating principal is made up of four wire spirals, and the length of every spiral arm is about λ/2, is wrapped in high-k (ε _r=36) on the medium post.The bottom of helix is connected with a sleeve balun.This antenna by a coaxial line that passes the medium axis of a cylinder heart in top-fed.This four-arm spiral antenna can be regarded as by the both arms spiral of two quadratures to be formed, electric current from coaxial inner conductor along helix toward dirty, through the edge of balun and diameter over against that root helix, get back to coaxial outer conductor.In order to realize 90 degree phase difference feeds, the length of two both arms spirals of fine setting makes a both arms spiral be longer than resonance length slightly, and producing a phase angle is the input impedance of+45 degree; Make another one both arms spiral be shorter than resonance length slightly, produce intersecting of one-45 degree.The bottom of Balun links to each other with the outer conductor of coaxial line, highly be λ/4 (λ is a guide wavelength), the top that is equivalent at Balun has produced an open circuit, electric current is only flowed along the top of Ba Lun, antenna and unbalanced feed system are kept apart, reduced the hand-held influence of human body antenna performance.

Method by medium loads has not only realized small size, and most of near-field energy is coupled to the medium the inside, and is very little in the near-field energy of medium outside, is used on the GPS hand-held set, and tissue is very little to the influence of its generation.The antenna of this structure has also comprised complete balun circuit (Balun) design simultaneously, antenna and unbalanced feed system are kept apart in this design, not only further reduced the hand-held influence of human body to it, and can isolated antennas the signal of periphery, therefore can allow the antenna of various functions and be stored in the minimum space and can not interfere with each other.Become more diversified for integration function, and emphasize compact hand-held electronic product, the importance of this characteristic is ineffable.Based on above-mentioned perfect performance, this antenna is rated as a revolutionary utility model, is known as the gps antenna of suitable mobile handheld terminal by industry.

In addition, Oliver Leisten is at Application No. US5859621, US6369776B1, in the patent such as US6424316B1 and US6886237B2 medium is loaded four-arm spiral antenna and proposed multiple different design and processing method, as Fig. 5, Fig. 6, Fig. 7, Fig. 8 a is shown in Fig. 8 b.And the patent No. is the patent of US6914580B2, the medium loaded antenna, thus this patent makes electric current have a plurality of coupling paths to produce broadband character by the gap between the appropriate design helix, shown in Fig. 9 a, Fig. 9 b.

Medium load circular polarization four-arm spiral antenna because of its have size little, do not need to connect reflecting plate, can produce the advantages such as requirement that cordate circular polarization directional diagram and the circular polarization performance when the low elevation angle also can satisfy satellite communication and be widely used in the portable satellite communications portable terminal.It is to adopt from the phase in-migration to produce 90 ° of phase differences mostly that present medium loads the four-arm spiral antenna structure, promptly when the design quadruple screw, make the length of one of two adjacent helixes be slightly larger than resonance wavelength to produce+45 ° of phase places, another helical length is slightly less than resonance wavelength to produce-45 ° of phase places, and two relative helix length equate, but use the anti-phase feed of coaxial internal and external conductor.Current phase is respectively+45 ° ,-45 °, (180+45) ° and (180-45) ° on such four helixes, thereby can realize circular polarization radiation.Because there is uneven feed problem in coaxial internal and external conductor to four spiral feeds, so need be that the Ba Lun of 1/4th medium wavelength suppresses the electric current radiation on the coaxial outer conductor in the tip designs length of four helixes.

But present medium load circular polarization four-arm spiral antenna exists requirement on machining accuracy height, antenna performance to be difficult for regulating and problem such as bandwidth is too narrow.

The utility model content

The purpose of this utility model is to overcome problems such as existing medium load circular polarization four-arm spiral antenna narrow bandwidth, the high and difficult adjusting of requirement on machining accuracy, and the medium that provides a kind of novel merit to divide phase shift network feed loads four-arm spiral antenna.This antenna structure compactness, the processing tolerance is big, and antenna performance is regulated easily, does not need the Ba Lun design, and the circular polarization bandwidth is also very wide, is fit to portable mobile satellite communication terminal.

The purpose of this utility model specifically is achieved through the following technical solutions: a kind of merit divides the medium of phase shift feeding network to load four-arm spiral antenna, it is characterized in that comprising feeding network and four wire spirals, wherein feeding network is by little band dielectric-slab (1), intermediate floor (6) and little band dielectric-slab (2) from top to bottom pile up, combine with the vertical placement of little band dielectric-slab (3) then, wherein, intermediate floor (6) be connected with a long short-circuit piece (8) with the ground of little band dielectric-slab (3), little band dielectric-slab (3) is gone up opposing another side in intermediate floor (6) and is provided with a media cylinders (17), four wire spirals are respectively the wire spiral that is used to realize circular polarization radiation (18) that is carried on the media cylinders (17), wire spiral (19), wire spiral (20) and wire spiral (21), in addition, little band dielectric-slab (1) is printed with power splitter one on the one side of intermediate floor (6) dorsad, little band dielectric-slab (2) is printed with power splitter two on the one side of intermediate floor (6) dorsad, simultaneously, little band dielectric-slab (3) is printed with phase-shifter on the one side of media cylinders (17) dorsad, this phase-shifter is made up of four 50 Ω microstrip transmission lines, wherein, four 50 Ω microstrip transmission lines are respectively transmission line (9), transmission line (10), transmission line (11) and transmission line (12).

In order to realize the utility model better, described four wire spirals (18), (19), (20) and the electrical length of (21) be half-wavelength or be quarter-wave, four wire spirals (18), (19), (20) and (21) respectively at the circumferential outer surface of media cylinders (17), prolong the top surface edge that rises to media cylinders (17) according to helical-like path from media cylinders (17) bottom, when four wire spirals (18), (19), (20) and the electrical length of (21) when being half-wavelength, the end of four wire spirals need pass through short-circuit line (22) short circuit, the output port of feeding network (13), (14), (15) and (16) respectively at bottom and four wire spirals (18) of media cylinders (17), (19), (20) and (21) contact four wire spirals (18), (19), (20) with (21) in the spacing of any two adjacent metal helixes on media cylinders (17) all identical.

Described power splitter one and power splitter two all are Wilkinson power splitter (5).

Described transmission line (9) and transmission line (10) electrical length differ quarter-wave; Transmission line (11) and transmission line (12) electrical length differ quarter-wave; Transmission line (9) and transmission line (11) electrical length equate; Transmission line (10) and transmission line (12) electrical length equate.

Described every 50 Ω microstrip transmission line all has an output port, wherein, and the corresponding output port of transmission line (9) (13), the corresponding output port of transmission line (10) (14), the corresponding output port of transmission line (11) (15), the corresponding output port of transmission line (12) (16).

Four output ports (13), (14), (15) and (16) that described four 50 Ω microstrip transmission lines (9), (10), (11) and (12) are corresponding lay respectively at little band dielectric-slab (3) that surface of media cylinders (17) dorsad, and four output ports (13), (14), (15) and (16) lay respectively at the middle of this surperficial four edges.

Be printed with the parallel wire (4) as feed port on described power splitter one and the power splitter two respectively, external radio-frequency signal is by anti-phase feed-in power splitter one of parallel wire (4) and power splitter two.

The width on the public floor (6) in the middle of described little band dielectric-slab (1) and the little band dielectric-slab (2) equates with the width of little band dielectric-slab (1) with little band dielectric-slab (2), and length is less than the length of little band dielectric-slab (1) and little band dielectric-slab (2), and the length of little band dielectric-slab (1) and little band dielectric-slab (2) and the length difference of floor (6) equal the length of parallel wire (4).

Four outputs of described power splitter one and power splitter two are electrically connected with four 50 Ω microstrip transmission lines of phase-shifter respectively, after being divided into four the tunnel, external radio-frequency signal process power splitter one and power splitter two pass through transmission line (9), transmission line (10), transmission line (11) and transmission line (12) at first respectively, then, distinguish feed-in wire spiral (18), wire spiral (19), wire spiral (20) and wire spiral (21) more respectively from output port (13), output port (14), output port (15) and output port (16) output.

Four tunnel signal amplitudes of described power splitter one and power splitter two outputs equate, the two paths of signals phase place of same power splitter output equates that two output ports that the signal phase of different power splitter outputs differs 180 ° of each power splitters all use 100 Ω isolation resistances (7).

Compared with prior art, the utlity model has following advantage:

1) the traditional sucrose load circular polarization four-arm spiral antenna is owing to be to produce 90 ° of phase differences by helix from phase shift to realize circular polarization, along with the medium dielectric constant improves, 90 ° of bandwidth from phase shift are very narrow, thereby the circular polarization bandwidth is also very narrow, and the utility model is directly quadruple screw to be carried out constant amplitude and 90 ° of phase difference feeds by the broadband feeding network, electric feed signal is not influenced by the dielectric constant of loaded medium, thereby can realize broadband circle polarized characteristic;

2) because there is uneven feed problem in the traditional sucrose load circular polarization four-arm spiral antenna, thereby need design Ba Lun, and the utility model has been avoided uneven feed by the parallel coupled line feed, does not need the Ba Lun design;

3) the utility model has overcome traditional sucrose load circular polarization four-arm spiral antenna requirement on machining accuracy height, antenna performance is difficult for regulating and the too narrow problem of bandwidth, structural design is simple, can realize broadband circle polarized characteristic, not only has very big processing tolerance, and the compact overall structure of antenna, be applicable to the portable satellite communications terminal.

Description of drawings

Fig. 1 be the utility model one specific embodiment the overall structure schematic diagram;

Fig. 2 (a) is the feeding network structural entity schematic diagram of the utility model one specific embodiment;

Fig. 2 (b) is the power division network structural representation of the utility model one specific embodiment;

Fig. 2 (c) is the phase-shift network structural representation of the utility model one specific embodiment;

Fig. 3 (a) is the half-wavelength short circuit four arm helical structure schematic diagrames of the utility model one specific embodiment;

Fig. 3 (b) is the quarter-wave of the utility model one specific embodiment four arm helical structure schematic diagrames of opening a way;

Fig. 4 is the return loss and the axial ratio characteristic Simulation curve of the utility model one specific embodiment;

Fig. 5 is the medium loaded antenna structural representation of an existing utility model;

Fig. 6 is the medium loaded antenna structural representation of an existing utility model;

Fig. 7 is the medium loaded antenna structural representation of an existing utility model;

Fig. 8 a is the medium loaded antenna structural representation of an existing utility model;

Fig. 8 b is the medium loaded antenna structural representation of existing utility model;

Fig. 9 a is the medium loaded antenna structural representation of an existing utility model;

Fig. 9 b is the expansion schematic diagram of the periphery of antenna shown in Fig. 9 a.

Embodiment

Below in conjunction with embodiment and accompanying drawing the utility model is described in further detail, but implementation method of the present utility model and claimed scope are not limited thereto.

Structure shown in Figure 1 comprises that novel merit divides phase shift feeding network and medium to load four arm spirals, and its structure is respectively shown in Fig. 2 (a), 2 (b), 2 (c), 3 (a), 3 (b).Shown in Fig. 2 (a), 2 (b), feeding network is from top to bottom piled up by little band dielectric-slab (1), intermediate floor (6) and little band dielectric-slab (2), combines with the vertical placement of little band dielectric-slab (3) then.Four-arm spiral antenna is made up of four wire spirals, is respectively wire spiral (18), wire spiral (19), wire spiral (20) and wire spiral (21).Four wire spirals are carried in media cylinders (17) and go up by media cylinders (17) support, are used to realize circular polarization radiation.

Wherein power division network and phase-shifter are respectively shown in Fig. 2 (b) and 2 (c).The identical Wilkinson power splitter (5) that is printed on little band dielectric-slab (1) and little band dielectric-slab (2) respectively is total to intermediate floor (6) and is stacked, the width a on middle public floor (6) equates with the width of little band dielectric-slab (1) or little band dielectric-slab (2), and length b is less than the length of little band dielectric-slab (1) or little band dielectric-slab (2), and the length of little band dielectric-slab (1) or little band dielectric-slab (2) and the length difference of floor (6) equal the length c of parallel wire (4).Give Wilkinson power splitter (5) feed by parallel wire (4).Four tunnel signal amplitudes through the output of two power splitters equate like this, but have only two signal phases of same power splitter output just to equate, the signal phase of different power splitter outputs differs 180 °.Phase-shift network is made up of the four 50 Ω microstrip transmission lines (9), (10), (11) and (12) that are printed on little band dielectric-slab (3), and four 50 Ω microstrip transmission lines (9), (10), (11) and (12) corresponding four output ports (13), (14), (15) and (16) lay respectively at little band dielectric-slab (3) middle of the four edges of the main radiator side dorsad.Wherein transmission line (9) is identical respectively with the electrical length of (11), transmission line (10) and (12), and transmission line (9) differs quarter-wave with (10), transmission line (11) respectively with the electrical length of (12).Like this from the signal of transmission line (9) output than 90 ° of the phase lag signals of transmission line (10) output, also lag behind 90 ° from the signal of transmission line (11) output than the signal phase of transmission line (12) output.Because transmission line (9) and transmission line (10) differ 180 ° with the FD feed of transmission line (11) and transmission line (12), thereby the signal amplitude approximately equal of the output port (13) of transmission line (9), (10), (11) and (12), (14), (15) and (16), and phase place lags behind 90 ° successively.In order to guarantee each output port phase difference, use 100 Ω isolation resistances (7); In order to guarantee the maximum transmitted from power division network to phase-shifter power, the floor of power splitter and the floor of phase-shift network electrically contact by a long short-circuit piece (8).

The length of four wire spirals or be half-wavelength perhaps is quarter-wave, respectively shown in Fig. 3 (a) and 3 (b).If be designed to half-wavelength, the end of four wire spirals (18), (19), (20) and (21) need pass through short-circuit line (22) short circuit, does not just need if be designed to quarter-wave.The signal of feeding network is via output port (13), (14), (15) and (16) four arm wire spirals (18), (19), (20) and (21) that media cylinders (17) loads of feeding respectively.Four wire spirals (18), (19), (20) and (21) respectively at the circumferential outer surface of media cylinders (17), prolong the top surface edge that rises to media cylinders (17) according to helical-like path from media cylinders (17) bottom, four wire spirals (18), (19), (20) with arbitrarily the spacing of consecutive roots wire spiral on media cylinders (17) is all identical in (21), i.e. helix (18) and helix (19), helix (19) and helix (20), spacing between helix (20) and helix (21) and helix (21) and the helix (18) equates.

In this specification, the utility model is described with reference to its certain embodiments.But, still can make various modifications and conversion obviously and not deviate from spirit and scope of the present utility model.Therefore, specification and accompanying drawing are regarded in an illustrative, rather than a restrictive.

Claims

1. a merit divides the medium of phase shift feeding network to load four-arm spiral antenna, it is characterized in that comprising feeding network and four wire spirals, wherein feeding network is by little band dielectric-slab (1), intermediate floor (6) and little band dielectric-slab (2) from top to bottom pile up, combine with the vertical placement of little band dielectric-slab (3) then, wherein, intermediate floor (6) be connected with a long short-circuit piece (8) with the ground of little band dielectric-slab (3), little band dielectric-slab (3) is gone up opposing another side in intermediate floor (6) and is provided with a media cylinders (17), four wire spirals are respectively the wire spiral that is used to realize circular polarization radiation (18) that is carried on the media cylinders (17), wire spiral (19), wire spiral (20) and wire spiral (21), in addition, little band dielectric-slab (1) is printed with power splitter one on the one side of intermediate floor (6) dorsad, little band dielectric-slab (2) is printed with power splitter two on the one side of intermediate floor (6) dorsad, simultaneously, little band dielectric-slab (3) is printed with phase-shifter on the one side of media cylinders (17) dorsad, this phase-shifter is made up of four 50 Ω microstrip transmission lines, wherein, four 50 Ω microstrip transmission lines are respectively transmission line (9), transmission line (10), transmission line (11) and transmission line (12).

2. a kind of merit according to claim 1 divides the medium of phase shift feeding network to load four-arm spiral antenna, it is characterized in that described four wire spirals (18), (19), (20) and the electrical length of (21) be half-wavelength or be quarter-wave, four wire spirals (18), (19), (20) and (21) respectively at the circumferential outer surface of media cylinders (17), prolong the top surface edge that rises to media cylinders (17) according to helical-like path from media cylinders (17) bottom, when four wire spirals (18), (19), (20) and the electrical length of (21) when being half-wavelength, the end of four wire spirals need pass through short-circuit line (22) short circuit, the output port of feeding network (13), (14), (15) and (16) respectively at bottom and four wire spirals (18) of media cylinders (17), (19), (20) and (21) contact four wire spirals (18), (19), (20) with (21) in the spacing of any two adjacent metal helixes on media cylinders (17) all identical.

3. a kind of merit according to claim 1 divides the medium of phase shift feeding network to load four-arm spiral antenna, it is characterized in that described power splitter one and power splitter two all are Wilkinson power splitter (5).

4. a kind of merit according to claim 1 divides the medium of phase shift feeding network to load four-arm spiral antenna, and it is characterized in that: described transmission line (9) and transmission line (10) electrical length differ quarter-wave; Transmission line (11) and transmission line (12) electrical length differ quarter-wave; Transmission line (9) and transmission line (11) electrical length equate; Transmission line (10) and transmission line (12) electrical length equate.

5. a kind of merit according to claim 1 divides the medium of phase shift feeding network to load four-arm spiral antenna, it is characterized in that, every 50 Ω microstrip transmission line all has an output port, wherein, the corresponding output port of transmission line (9) (13), the corresponding output port of transmission line (10) (14), the corresponding output port of transmission line (11) (15), the corresponding output port of transmission line (12) (16).

6. a kind of merit according to claim 1 divides the medium of phase shift feeding network to load four-arm spiral antenna, it is characterized in that, four output ports (13), (14), (15) and (16) that four 50 Ω microstrip transmission lines (9), (10), (11) and (12) are corresponding lay respectively at little band dielectric-slab (3) that surface of media cylinders (17) dorsad, and four output ports (13), (14), (15) and (16) lay respectively at the middle of this surperficial four edges.

7. a kind of merit according to claim 1 divides the medium of phase shift feeding network to load four-arm spiral antenna, it is characterized in that, be printed with the parallel wire (4) as feed port on described power splitter one and the power splitter two respectively, external radio-frequency signal is by anti-phase feed-in power splitter one of parallel wire (4) and power splitter two.

8. a kind of merit according to claim 1 divides the medium of phase shift feeding network to load four-arm spiral antenna, it is characterized in that, the width on the public floor (6) in the middle of little band dielectric-slab (1) and the little band dielectric-slab (2) equates with the width of little band dielectric-slab (1) with little band dielectric-slab (2), and length is less than the length of little band dielectric-slab (1) and little band dielectric-slab (2), and the length of little band dielectric-slab (1) and little band dielectric-slab (2) and the length difference of floor (6) equal the length of parallel wire (4).

9. divide the medium of phase shift feeding network to load four-arm spiral antenna according to claim 1 or 7 described a kind of merits, it is characterized in that, four outputs of power splitter one and power splitter two are electrically connected with four 50 Ω microstrip transmission lines of phase-shifter respectively, after being divided into four the tunnel, external radio-frequency signal process power splitter one and power splitter two pass through transmission line (9) at first respectively, transmission line (10), transmission line (11) and transmission line (12), then respectively from output port (13), output port (14), feed-in wire spiral (18) is distinguished in output port (15) and output port (16) output again, wire spiral (19), wire spiral (20) and wire spiral (21).

10. divide the medium of phase shift feeding network to load four-arm spiral antenna according to claim 1 or 7 described a kind of merits, it is characterized in that, four tunnel signal amplitudes of power splitter one and power splitter two outputs equate, the two paths of signals phase place of same power splitter output equates that the signal phase of different power splitter outputs differs 180 °.Two output ports of each power splitter all use 100 Ω isolation resistances (7).