CN209016241U - Csrr metallic vias filter based on SIW structure - Google Patents
Csrr metallic vias filter based on SIW structure Download PDFInfo
- Publication number
- CN209016241U CN209016241U CN201821834756.6U CN201821834756U CN209016241U CN 209016241 U CN209016241 U CN 209016241U CN 201821834756 U CN201821834756 U CN 201821834756U CN 209016241 U CN209016241 U CN 209016241U
- Authority
- CN
- China
- Prior art keywords
- csrr
- foil
- side ring
- dielectric
- slab
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Control Of Motors That Do Not Use Commutators (AREA)
Abstract
The utility model discloses the csrr metallic vias filters based on SIW structure, belong to microwave filter field, csrr metallic vias filter based on SIW structure, including dielectric-slab, the lower end of dielectric-slab is fixedly connected with bottom layer ground metal foil, the upper end of dielectric-slab is fixedly connected with top-level metallic foil, digging on top-level metallic foil has two rows of equally distributed first metal throuth holes, and two rows of equally distributed first metal throuth holes are located at the up-and-down boundary of top-level metallic foil, the left and right ends of top-level metallic foil are fixedly connected to port microstrip lead-out wire, a pair of of port microstrip lead-out wire is about the substantially symmetrical about its central axis of top-level metallic foil, port microstrip lead-out wire is convex microstrip line transition structure, and port microstrip lead-out wire is located at the middle part of dielectric-slab, it is simple that structure may be implemented, it is small in size, it is light-weight, it is at low cost, letter Number transmission loss is small, and insertion loss is low, and return loss is high, has good transmission performance.
Description
Technical field
The utility model relates to microwave filter fields, more specifically to the csrr metal mistake based on SIW structure
Hole filter.
Background technique
Microwave filter is a kind of passive device, while being the important composition device of Modern Communication System.Make to need in circuit
The signal wanted can pass through, so in circuit, the performance of filter in the communication quality and system of communication system
Superiority and inferiority have a highly important relationship, the performance of filter can even have a direct impact communication system.With social section
The development of technology, while filter rapidly develops, the scale of circuit is also in further expansion.
In order to improve the transmission performance of filter, it is desirable that filter has low insertion loss and high return loss, more attaches most importance to
It wants, in order to meet the trend toward miniaturization of Modern communications terminals, it is desirable that filter will have smaller volume and weight, filter sometimes
Wave device size is even more important than performance.The insertion loss of conventional filter is bigger, and return loss is smaller, leads to transporting
Poor and traditional rectangular waveguide volume is big, and weight is big.Therefore it is badly in need of a kind of minimize and the high filtering of transmission performance at present
Device solves above-mentioned technical problem.
Utility model content
1. technical problems to be solved
Aiming at the problems existing in the prior art, the purpose of this utility model is to provide the csrr gold based on SIW structure
Belong to via hole filter, it may be implemented, and structure is simple, and small in size, light-weight, at low cost, signal transmission attenuation is small, insertion loss
Low, return loss is high, has good transmission performance.
2. technical solution
To solve the above problems, the utility model adopts the following technical scheme.
Csrr metallic vias filter based on SIW structure, including dielectric-slab, the lower end of the dielectric-slab are fixedly connected with
Bottom layer ground metal foil, the upper end of the dielectric-slab are fixedly connected with top-level metallic foil, and digging on the top-level metallic foil has two
Equally distributed first metal throuth hole is arranged, and two rows of equally distributed first metal throuth holes are located at the upper and lower of top-level metallic foil
Boundary, the left and right ends of the top-level metallic foil are fixedly connected to port microstrip lead-out wire, and a pair of port microstrip is drawn
Line is substantially symmetrical about its central axis about top-level metallic foil, and the port microstrip lead-out wire is convex microstrip line transition structure, and port is micro-
Be located at the middle part of dielectric-slab with lead-out wire, be fixedly connected on the top-level metallic foil a pair of second hexagon csrr resonator and
A pair of first hexagon csrr resonator, the second hexagon csrr resonator and the first hexagon csrr resonator distinguish position
Digging at top-level metallic foil horizontal center line one third and 2/3rds, on the top-level metallic foil has a pair of second metal
Through-hole, and the second metal throuth hole is between the second hexagon csrr resonator and the first hexagon csrr resonator, Yi Duisuo
It states the second metal throuth hole to be located at top-level metallic foil horizontal center line one third and 2/3rds, structure may be implemented in it
Simply, small in size, light-weight, at low cost, signal transmission attenuation is small, and insertion loss is low, and return loss is high, has good transmission
Performance.
Further, sub-miniature A connector is respectively connected on a pair of port microstrip lead-out wire.
Further, the SIW characteristic impedance that the port microstrip lead-out wire is 50 ohm matches microstrip line.
Further, first metal throuth hole and the second metal throuth hole are circle, and the first metal throuth hole and second
Metal throuth hole runs through dielectric-slab and bottom layer ground metal foil, is metallization in first metal throuth hole and the second metal throuth hole
Processing, and top-level metallic foil is connected with bottom layer ground metal foil by the first metal throuth hole and the second metal throuth hole.
Further, the diameter of first metal throuth hole is 0.5mm, between the two neighboring bottom layer ground metal foil
Distance of center circle be 1mm, the diameter of second metal throuth hole is 0.01mm.
Further, the bottom layer ground metal foil and top-level metallic foil are copper foil, and the dielectric-slab is to use
Rogers RT/duroid 5880 (tm) material, and the relative dielectric constant of dielectric-slab be 2.2, the dielectric-slab with a thickness of
0.508mm, the port microstrip lead-out wire with a thickness of 0.003mm.
Further, the length of the top-level metallic foil is 20mm, and the width of the top-level metallic foil is 12mm, described
The center of second hexagon csrr resonator and the first hexagon csrr resonator is respectively positioned at horizontal center line 3.28mm,
The first hexagon csrr resonator include the first big six side ring and the first small six side ring, outer the six of first big six side ring
Side shape side length is 2mm, and the interior hexagonal side length of first big six side ring is 1.7mm, and the opening of first big six side ring is long
Degree is 0.8mm, and the outer hexagonal side length of first small six side ring is 1.19mm, the interior hexagon side of first small six side ring
A length of 0.89mm, the Opening length of first small six side ring are 0.5mm, and the second hexagon csrr resonator includes the
Two imperial palace side rings and the second small interior side ring, the outer hexagonal side length of the second largest interior side ring are 1.5mm, described second largest interior
Hexagonal side length is 1.2mm in side ring, and the second largest interior side ring Opening length is 0.4mm, the second small interior side ring it is outer
Hexagonal side length is 0.8mm, and the interior hexagonal side length of the second small interior side ring is 0.5mm, and the second small interior side ring is opened
Mouth length is 0.2mm.
3. beneficial effect
Compared with the prior art, utility model has the advantages that
(1) this programme port microstrip lead-out wire uses convex microstrip line transition structure, which can not only realize
The excessive of energy, transmitting and conversion, are also beneficial to the effective integration of filter, have achieved the effect that minimize filter, and
Convex transition structure overcomes the reflection problems of the direct transition of people, and the influence to fields inside is small.
(2) compared to common round and rectangular csrr resonance ring structure, the second hexagon csrr resonator in this programme
Area occupied by hexagon csrr resonance ring structure with the first hexagon csrr resonator is smaller, and more conducively filter is small
Type.
(3) centre frequency of the utility model structure is 12.5Ghz, and transmission zero is located at 13.4Ghz, and passband width is about
For 1.5Hhz, return loss can reach -18dB near pass-band, and insertion loss reaches -0.81dB near pass-band, more common
Csrr Structure Filter has good band logical effect, and has broader passband.
(4) the utility model structure is significantly improved by way of the second metal throuth hole is added on horizontal center line
Band resistance effect at its transmission zero drastically reduces return loss between 13.15-13.4Ghz to -25dB, filtering effect
Fruit is obviously improved.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model;
Fig. 2 is the floor map of the utility model;
Fig. 3 is the return loss analogous diagram of the utility model.
Figure label explanation:
1 bottom layer ground metal foil, 2 dielectric-slabs, 3 top-level metallic foils, 4 first metal throuth holes, 5 port microstrip lead-out wires, 6
Two metal throuth holes, 7 second hexagon csrr resonators, 8 first hexagon csrr resonators.
Specific embodiment
The following is a combination of the drawings in the embodiments of the present utility model;The technical scheme in the embodiment of the utility model is carried out
Clearly and completely describe;Obviously, the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment, based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.a
In the description of the present invention, it should be noted that term " on ", "lower", "inner", "outside", " top/bottom end " etc.
The orientation or positional relationship of instruction is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description the utility model
It is described with simplifying, rather than the device or element of indication or suggestion meaning must have a particular orientation, with specific orientation structure
It makes and operates, therefore should not be understood as limiting the present invention.In addition, term " first ", " second " are only used for description mesh
, it is not understood to indicate or imply relative importance.
In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified
Dress ", " being provided with ", " be arranged/connect ", " connection " etc., shall be understood in a broad sense, such as " connection ", may be a fixed connection, can also be with
It is to be detachably connected, or be integrally connected;It can be mechanical connection, be also possible to be electrically connected;It can be directly connected, it can also be with
Indirectly connected through an intermediary, it can be the connection inside two elements.For the ordinary skill in the art, may be used
The concrete meaning of above-mentioned term in the present invention is understood with concrete condition.
Embodiment 1:
Csrr metallic vias filter based on SIW structure referring to FIG. 1-2, including dielectric-slab 2, the lower end of dielectric-slab 2
It is fixedly connected with bottom layer ground metal foil 1, the upper end of dielectric-slab 2 is fixedly connected with top-level metallic foil 3, bottom layer ground metal foil 1,
Dielectric-slab 2 and top-level metallic foil 3 fit closely, and digging on top-level metallic foil 3 has two rows of equally distributed first metal throuth holes 4,
And two rows of equally distributed first metal throuth holes 4 are located at the up-and-down boundary of top-level metallic foil 3, the left and right of top-level metallic foil 3
Both ends are fixedly connected to port microstrip lead-out wire 5, central axis pair of a pair of of port microstrip lead-out wire 5 about top-level metallic foil 3
Claim, port microstrip lead-out wire 5 is convex microstrip line transition structure, and port microstrip lead-out wire 5 is located at the middle part of dielectric-slab 2, top
The second hexagon csrr resonator of a pair 7 and a pair of first hexagon csrr resonator 8 are fixedly connected in layer metal foil 3, the
Two hexagon csrr resonators 7 and the first hexagon csrr resonator 8 are located at 3 horizontal center line three of top-level metallic foil and divide
One of and 2/3rds at, digging on top-level metallic foil 3 has a pair of second metal throuth hole 6, and the second metal throuth hole 6 is located at second
Between hexagon csrr resonator 7 and the first hexagon csrr resonator 8, a pair of second metal throuth hole 6 is located at top layer gold
Belonging at 3 horizontal center line one third of foil and 2/3rds, it is simple that it may be implemented structure, and it is small in size, it is light-weight, it is at low cost.
Sub-miniature A connector, the SIW characteristic that port microstrip lead-out wire 5 is 50 ohm are respectively connected on a pair of of port microstrip lead-out wire 5
Impedance matching microstrip line, bottom layer ground metal foil 1 and top-level metallic foil 3 are copper foil, and dielectric-slab 2 is using Rogers RT/
Duroid 5880 (tm) material, and the relative dielectric constant of dielectric-slab 2 be 2.2, dielectric-slab 2 with a thickness of 0.508mm, port
Micro-strip lead-out wire 5 with a thickness of 0.003mm.
First metal throuth hole 4 and the second metal throuth hole 6 are circle, and the first metal throuth hole 4 and the second metal throuth hole 6 are
It is metalized in the first metal throuth hole 4 and the second metal throuth hole 6, and push up through dielectric-slab 2 and bottom layer ground metal foil 1
Layer metal foil 3 is connected by the first metal throuth hole 4 with the second metal throuth hole 6 with bottom layer ground metal foil 1, the first metal throuth hole
4 diameter is 0.5mm, and the distance of center circle between two neighboring bottom layer ground metal foil 1 is 1mm, and the diameter of the second metal throuth hole 6 is
0.01mm。
The length of top-level metallic foil 3 is 20mm, and the width of top-level metallic foil 3 is 12mm, the second hexagon csrr resonator
7 and first the center of hexagon csrr resonator 8 be respectively positioned at horizontal center line 3.28mm, the first hexagon csrr is humorous
The device 8 that shakes includes the first big six side ring and the first small six side ring, and the outer hexagonal side length of the first big six side ring is 2mm, and first is big by six
The interior hexagonal side length of side ring is 1.7mm, and the Opening length of the first big six side ring is 0.8mm, outer six side of the first small six side ring
Shape side length is 1.19mm, and the interior hexagonal side length of the first small six side ring is 0.89mm, and the Opening length of the first small six side ring is
0.5mm, the second hexagon csrr resonator 7 include the second largest interior side ring and the second small interior side ring, outer the six of the second largest interior side ring
Side shape side length is 1.5mm, and hexagonal side length is 1.2mm in the second largest interior side ring, and the second largest interior side ring Opening length is 0.4mm,
The outer hexagonal side length of second small interior side ring is 0.8mm, and the interior hexagonal side length of the second small interior side ring is 0.5mm, and second is small interior
The Opening length of side ring is 0.2mm, and the second hexagon csrr resonator 7 and the first hexagon csrr resonator 8 include two embedding
The hexagonal apertures ring of different sizes of set, passes through calculation optimization the second hexagon csrr resonator 7 and the first hexagon csrr
The side length of 8 inner and outer ring of resonator can obtain excellent filter effect.
Referring to Fig. 3, the return loss analogous diagram of this programme, the centre frequency of the utility model structure is 12.5Ghz,
Transmission zero is located at 13.4Ghz, and passband width is about 1.5Hhz, and return loss can reach -18dB, insertion damage near pass-band
Consumption reaches -0.81dB near pass-band, and more common csrr Structure Filter has good band logical effect, and has broader
Passband, the utility model structure significantly improve its biography by way of the second metal throuth hole 6 is added on horizontal center line
Band resistance effect at defeated zero point, drastically reduces return loss between 13.15-13.4Ghz to -25dB, filter effect is obvious
It is promoted, signal transmission attenuation is small, and insertion loss is low, and return loss is high, has good transmission performance.
It is described above;The only preferable specific embodiment of the utility model;But the protection scope of the utility model is not
It is confined to this.Anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this
Novel technical solution and its improvement design is subject to equivalent substitution or change, should all cover in the protection scope of the utility model
It is interior.
Claims (7)
1. the csrr metallic vias filter based on SIW structure, including dielectric-slab (2), it is characterised in that: the dielectric-slab (2)
Lower end be fixedly connected with bottom layer ground metal foil (1), the upper end of the dielectric-slab (2) is fixedly connected with top-level metallic foil (3),
Digging on the top-level metallic foil (3) has two rows of equally distributed first metal throuth holes (4), and two rows of equally distributed first gold medals
Belong to the up-and-down boundary that through-hole (4) are located at top-level metallic foil (3), the left and right ends of the top-level metallic foil (3) are fixed to be connected
Be connected to port microstrip lead-out wire (5), a pair of port microstrip lead-out wire (5) about the substantially symmetrical about its central axis of top-level metallic foil (3),
The port microstrip lead-out wire (5) is convex microstrip line transition structure, and port microstrip lead-out wire (5) is located at dielectric-slab (2)
Middle part is fixedly connected with the first hexagon of a pair of second hexagon csrr resonator (7) and a pair on the top-level metallic foil (3)
Csrr resonator (8), the second hexagon csrr resonator (7) and the first hexagon csrr resonator (8) are located at top
Digging at layer metal foil (3) horizontal center line one third and 2/3rds, on the top-level metallic foil (3) has a pair of second gold medal
Belong to through-hole (6), and the second metal throuth hole (6) is located at the second hexagon csrr resonator (7) and the first hexagon csrr resonator
(8) between, a pair of second metal throuth hole (6) is located at top-level metallic foil (3) horizontal center line one third and three points
Two at.
2. the csrr metallic vias filter according to claim 1 based on SIW structure, it is characterised in that: described in a pair
Port microstrip lead-out wire is respectively connected with sub-miniature A connector on (5).
3. the csrr metallic vias filter according to claim 1 based on SIW structure, it is characterised in that: the port
The SIW characteristic impedance that micro-strip lead-out wire (5) is 50 ohm matches microstrip line.
4. the csrr metallic vias filter according to claim 1 based on SIW structure, it is characterised in that: described first
Metal throuth hole (4) and the second metal throuth hole (6) are circle, and the first metal throuth hole (4) and the second metal throuth hole (6) run through
For at metallization in dielectric-slab (2) and bottom layer ground metal foil (1), first metal throuth hole (4) and the second metal throuth hole (6)
Reason, and top-level metallic foil (3) is connected by the first metal throuth hole (4) with the second metal throuth hole (6) with bottom layer ground metal foil (1)
It connects.
5. the csrr metallic vias filter according to claim 1 based on SIW structure, it is characterised in that: described first
The diameter of metal throuth hole (4) is 0.5mm, and the distance of center circle between the two neighboring bottom layer ground metal foil (1) is 1mm, described
The diameter of second metal throuth hole (6) is 0.01mm.
6. the csrr metallic vias filter according to claim 1 based on SIW structure, it is characterised in that: the bottom
Grounded metal foil (1) and top-level metallic foil (3) are copper foil, and the dielectric-slab (2) is using Rogers RT/duroid 5880
(tm) material, and the relative dielectric constant of dielectric-slab (2) be 2.2, the dielectric-slab (2) with a thickness of 0.508mm, the port
Micro-strip lead-out wire (5) with a thickness of 0.003mm.
7. the csrr metallic vias filter according to claim 1 based on SIW structure, it is characterised in that: the top layer
The length of metal foil (3) is 20mm, and the width of the top-level metallic foil (3) is 12mm, the second hexagon csrr resonator
(7) it is respectively positioned at horizontal center line 3.28mm with the center of the first hexagon csrr resonator (8), first hexagon
Csrr resonator (8) includes the first big six side ring and the first small six side ring, and the outer hexagonal side length of first big six side ring is
2mm, the interior hexagonal side length of first big six side ring are 1.7mm, and the Opening length of first big six side ring is 0.8mm,
The outer hexagonal side length of first small six side ring is 1.19mm, and the interior hexagonal side length of first small six side ring is
0.89mm, the Opening length of first small six side ring are 0.5mm, and the second hexagon csrr resonator (7) includes second
Imperial palace side ring and the second small interior side ring, the outer hexagonal side length of the second largest interior side ring are 1.5mm, the second largest interior side ring
Interior hexagonal side length is 1.2mm, and the second largest interior side ring Opening length is 0.4mm, outer six side of the second small interior side ring
Shape side length is 0.8mm, and the interior hexagonal side length of the second small interior side ring is 0.5mm, and the opening of the second small interior side ring is long
Degree is 0.2mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821834756.6U CN209016241U (en) | 2018-11-08 | 2018-11-08 | Csrr metallic vias filter based on SIW structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821834756.6U CN209016241U (en) | 2018-11-08 | 2018-11-08 | Csrr metallic vias filter based on SIW structure |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209016241U true CN209016241U (en) | 2019-06-21 |
Family
ID=66841799
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821834756.6U Expired - Fee Related CN209016241U (en) | 2018-11-08 | 2018-11-08 | Csrr metallic vias filter based on SIW structure |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209016241U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112768852A (en) * | 2020-12-28 | 2021-05-07 | 杭州电子科技大学 | Folded substrate integrated waveguide phase shifter with CSRR loaded periodically |
-
2018
- 2018-11-08 CN CN201821834756.6U patent/CN209016241U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112768852A (en) * | 2020-12-28 | 2021-05-07 | 杭州电子科技大学 | Folded substrate integrated waveguide phase shifter with CSRR loaded periodically |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN108879044B (en) | Ultra-wideband band-pass filter structure with wide stop band and high selectivity | |
CN102361110B (en) | Small-sized double-module double-frequency micro-strip filter | |
CN101246983B (en) | Ultra-wideband filter based on simplified left hand transmission line structure | |
CN104409808B (en) | Comb filter based on multimode resonator | |
CN103904392B (en) | Substrate integral wave guide filter | |
CN209804860U (en) | Dielectric filter | |
CN105958164A (en) | Cross-coupled bandpass filter with suspended strip lines | |
CN103730709A (en) | Double belt filter based on composite right and left hand and complementary split ring resonator defected ground of substrate integrated waveguide | |
CN109301404B (en) | LTCC (Low temperature Co-fired ceramic) wide stop band filtering balun based on frequency selective coupling | |
CN106129557B (en) | A kind of cross-coupling band pass filter | |
CN110112517A (en) | A kind of 5G communication single layer dielectric waveguide filter | |
CN107275740A (en) | It is a kind of that there is the dual-frequency power divider for transmitting null character | |
CN209016241U (en) | Csrr metallic vias filter based on SIW structure | |
CN108631031A (en) | Triangle substrate integral waveguide resonant cavity double-mode band-pass filter | |
CN110556615B (en) | Multi-frequency band-pass filter based on coupling symmetrical short-circuit branch multimode resonator | |
CN105720330B (en) | Substrate integration wave-guide bandpass filter based on novel complementary openings resonance ring structure | |
CN107256995A (en) | A kind of micro-strip dual-pass band-pass filter | |
CN112768854B (en) | High-selectivity differential dual-passband microstrip filter based on stepped impedance resonator | |
CN202121040U (en) | High defect coplanar waveguide double-frequency filter | |
CN202259650U (en) | Highly miniaturized substrate integrated waveguide resonator | |
CN209709140U (en) | A kind of 5G communication single layer dielectric waveguide filter | |
CN113131112B (en) | Miniaturized band-pass LTCC filter with embedded SIR branches | |
KR100249836B1 (en) | Duplexer with step-impedence resonator | |
CN109301414A (en) | A kind of circular substrate integrated waveguide bandpass filter | |
CN206301920U (en) | The improved wave filter of structure |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190621 Termination date: 20201108 |
|
CF01 | Termination of patent right due to non-payment of annual fee |