CN212542690U - Multifunctional GNSS antenna - Google Patents

Abstract

The utility model discloses a multi-functional GNSS antenna belongs to the communication technology field. The utility model discloses a multi-functional GNSS antenna is including the PCB board, first dielectric plate and the first radiation part that set gradually, the PCB board with first radiation part links to each other through first feed part, still be provided with second radiation part and a plurality of metallization via hole on the first dielectric plate, the second radiation part with the PCB board passes through second feed part and connects, and is a plurality of metallization via hole centers on first radiation part sets up, the second radiation part is located a plurality ofly the outside of metallization via hole. The utility model discloses a multi-functional GNSS antenna has effectively reduced second radiation part to the signal interference and the coupling of first radiation part, is favorable to realizing the miniaturization of antenna.

Description

Multifunctional GNSS antenna

Technical Field

The utility model relates to the field of communication technology, concretely relates to multifunctional GNSS antenna.

Background

With the development of communication technology of internet of things and GNSS satellite navigation and positioning systems, GNSS navigation and high-precision positioning equipment are developing towards miniaturization and multi-functionalization. The navigation positioning function is realized, and meanwhile, the functions of mobile cellular communication, WIFI, Bluetooth, private network communication and the like are required to be realized. The traditional design adopts the idea of separately designing each antenna, increases the number of the antennas, improves the equipment cost and is not beneficial to the miniaturization design.

Currently, antennas which are designed separately are generally integrated, for example, a 4G antenna and a WIFI antenna are directly placed around a GNSS antenna, although the size of the antenna is reduced to a certain extent, this method does not consider interference and coupling between the antennas, and particularly, GNSS signals are easily interfered, positioning accuracy is reduced, and even a satellite is unlocked.

SUMMERY OF THE UTILITY MODEL

In order to solve the deficiency of the prior art, the embodiment of the utility model provides a multifunctional GNSS antenna can effectively reduce interference and coupling between the antenna, is favorable to realizing the miniaturization of antenna.

In order to achieve the above object, the embodiment of the utility model provides a multifunctional GNSS antenna, including PCB board, first dielectric plate and the first radiation part that sets gradually, the PCB board with first radiation part links to each other through first feed part, still be provided with second radiation part and a plurality of metallization via hole on the first dielectric plate, the second radiation part with the PCB board passes through second feed part and connects, and is a plurality of metallization via hole centers on first radiation part sets up, the second radiation part is located a plurality ofly the outside of metallization via hole.

Optionally, a boss is arranged on the first dielectric plate, the boss is arranged around the first radiation part, and the boss is provided with the metalized via hole.

Optionally, the antenna further comprises a second dielectric plate and a third radiation component, the second dielectric plate is disposed on the first radiation component, the third radiation component is disposed on the second dielectric plate, and the third radiation component is connected to the PCB through a third feeding component.

Optionally, in the circumferential direction of the first radiation member, the boss includes multiple sections, a positioning groove is disposed between two adjacent sections of the boss, a positioning block is disposed on the second dielectric plate, and the positioning block is embedded in the positioning groove.

Optionally, the positioning groove is internally provided with the metalized via hole, the positioning block is fastened with the positioning groove through a stud, and the stud is matched with the metalized via hole on the positioning groove.

Optionally, a first circuit network and a second circuit network are arranged on the PCB;

the first circuit network comprises a feed network, a first filter circuit and a low-noise amplifying circuit which are sequentially connected, and the feed network is respectively connected with the first feed component and the third feed component;

the second circuit network includes a second filter circuit coupled to the second feed block.

Optionally, the first circuit network and the second circuit network are disposed on a side of the PCB away from the first dielectric plate, a shielding cover is disposed on a side of the PCB away from the first dielectric plate, and the first circuit network and the second circuit network are covered and disposed in the shielding cover.

Optionally, a ground short-circuit column is disposed on the second radiation member, one end of the ground short-circuit column is connected to the second radiation member, and the other end of the ground short-circuit column is grounded.

Optionally, the second radiation element includes a plurality of metal layers, the plurality of metal layers are connected to each other, and the plurality of metal layers include at least one metal layer provided on a surface of the first dielectric plate and at least one metal layer provided on a side surface of the first dielectric plate.

Optionally, a plurality of the second radiation members are included, and the plurality of the second radiation members are circumferentially arranged along the periphery of the first medium plate.

The utility model has the advantages that:

the utility model discloses a multi-functional GNSS antenna, including PCB board, first dielectric plate and the first radiation part that sets gradually, the PCB board with first radiation part links to each other through first feed part, still be provided with second radiation part and a plurality of metallization via hole on the first dielectric plate, second radiation part with the PCB board passes through second feed part and connects, and is a plurality of the metallization via hole centers on first radiation part sets up, second radiation part locates a plurality ofly the outside of metallization via hole. The utility model discloses a multi-functional GNSS antenna is equipped with a plurality of metallization via holes at first radiating element's periphery, and the metallization via hole has increased the capacitive coupling, and a plurality of metallization via holes form the protection to the first radiating element who is located it, have effectively reduced the signal interference and the coupling of third radiating element to first radiating element, are favorable to realizing the miniaturization of antenna.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural diagram of the multifunctional GNSS antenna according to the embodiment of the present invention after removing the second dielectric plate;

FIG. 2 is a front view of FIG. 1;

fig. 3 is a schematic structural diagram of a multifunctional GNSS antenna according to an embodiment of the present invention;

FIG. 4 is a front view of FIG. 3;

fig. 5 is a schematic cross-sectional structure diagram of a multifunctional GNSS antenna according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a second dielectric plate in an embodiment of the present invention.

Wherein the correspondence between the reference numbers and the names of the components in fig. 1 to 6 is:

1. a PCB board; 2. a first dielectric plate; 3. a first radiation member; 4. a second radiation member; 5. metallizing the via hole; 6. a second dielectric plate; 7. a third radiation member; 8. a shield case; 20. a boss; 21. a concave cavity; 22. positioning a groove; 30. a first feeding section; 40. a second feeding section; 41. a ground shorting post; 60. positioning blocks; 61. a stud; 70. a third feeding section; 300. a first tuning branch; 400. a first metal layer; 401. a second metal layer; 402. a third metal layer; 403. a fourth metal layer; 700. a second tuning branch.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

Referring to fig. 1 to 6, the embodiment of the utility model provides a multifunctional GNSS antenna, mainly including the PCB board 1 that sets gradually, first dielectric plate 2 and first radiation part 3, PCB board 1 links to each other through first feed part 30 with first radiation part 3, is provided with second radiation part 4 and a plurality of metallized via hole 5 on the first dielectric plate 2, and second radiation part 4 links to each other with PCB board 1, and a plurality of metallized via holes 5 set up around first radiation part 3, second radiation part 4 sets up in a plurality of metallized via hole 5's the outside.

In operation, as shown in fig. 2, the current generated by the second radiation element 4 is coupled to the first radiation element 3, so as to generate coupling and interference on the signal of the first radiation element 3, and affect the performance of the first radiation element 3, in this embodiment, the current generated by the second radiation element 4 is interfered by the plurality of metalized vias 5, so that the current generated by the second radiation element 4 is coupled to the metalized vias 5, and part of the current is radiated, so that the energy coupled to the first radiation element 3 is reduced, and the isolation and interference of the antenna are improved; in addition, after the current generated by the first radiation part 3 is coupled to the metalized via 5, the radiation aperture of the first radiation part 3 becomes larger, which has the effect of reducing the frequency of the first radiation part 3, so that the size of the first radiation part 3 is smaller under the condition of reaching the same resonance frequency, which is beneficial to realizing the miniaturization of the antenna.

In the embodiment of optionally, PCB board 1, first dielectric plate 2, first radiation part 3 and first feed part 30 constitute first antenna element, first antenna element can select to realize navigation positioning function, and PCB board 1, first dielectric plate 2, second radiation part 4 and second feed part 40 constitute second antenna element, and second antenna element can select to realize communication function, such as 4G communication, bluetooth communication etc. consequently, based on the technical scheme of the embodiment of the utility model, can realize navigation positioning antenna and communication antenna's integration for a holistic antenna realizes multiple functions such as navigation positioning, communication, simultaneously, can also reach and reduce communication antenna's interference and coupling to navigation positioning antenna to and realize the miniaturized effect of antenna.

The embodiment of the present invention provides a metalized via hole 5 can be selected to be uniformly arranged along the periphery of the first radiation member 3, and a plurality of metalized via holes 5 can be selected to surround the periphery of the first radiation member 3 to form an annular structure, which is equivalent to forming a protection ring for the first radiation member 3 located in the annular structure, so as to avoid the signal interference and coupling of the antenna device outside the protection ring to the first radiation member 3.

Further exemplarily, the first dielectric plate 2 is provided with a boss 20, the boss 20 is disposed around the first radiation member 3, and the boss 20 is provided with the above-mentioned metallized via 5. In this embodiment, the boss 20 further improves the coupling effect of the metalized via 5 on the first radiation member 3 and the second radiation member 4, and improves the isolation between the first antenna element and the second antenna element.

As shown in fig. 3 to 6, the multifunctional GNSS antenna further includes a second dielectric plate 6 and a third radiation member 7, the second dielectric plate 6 is disposed on the first radiation member 3, the third radiation member 7 is disposed on the second dielectric plate 6, and the third radiation member 7 is connected to the PCB board 1 through a third feeding member 70. In this embodiment, the second dielectric plate 6, the third radiating element 7 and the third feeding element 70 may be selected as part of the first antenna unit, where the first radiating element 3 and the third radiating element 7 generate resonant frequencies of different frequency bands, respectively, in a specific embodiment, the first radiating element 3 is configured to generate a resonant frequency corresponding to a GNSS L2 frequency band, the third radiating element 7 is configured to generate a resonant frequency corresponding to a GNSS L1 frequency band, and the first antenna unit covers GNSS L1 and L2 frequency band ranges, so as to implement a GNSS navigation positioning function.

The boss 20 extends above the first dielectric plate 2, and a cavity 21 is formed in the inner periphery of the boss 20, and in this embodiment, the cavity 21 is used for mounting the second dielectric plate 6. Optionally, the bosses 20 include multiple sections, a positioning groove 22 is disposed between two adjacent sections of the bosses 20, a positioning block 60 corresponding to the positioning groove 22 is disposed on the second dielectric plate 6, and when the second dielectric plate 6 is mounted, the positioning block 60 is embedded in the positioning groove 22. In this embodiment, the second dielectric plate 6 can be quickly positioned by the matching structure of the positioning groove 22 and the positioning block 60, so that the second dielectric plate 6 can be conveniently mounted.

In an alternative embodiment, the second dielectric sheet 6 is fastened to the first dielectric sheet 2 by means of studs 61 to avoid loosening of the second dielectric sheet 6. In a specific embodiment, the positioning block 60 and the positioning groove 22 may be fastened by a stud 61, wherein the positioning groove 22 may be provided with the metalized via hole 5, and the stud 61 is matched with the metalized via hole 5, at this time, the metalized via hole 5 takes into consideration the fastening connection effect of the first dielectric plate 2 and the second dielectric plate 6, and the stud 61 may be an insulating plastic stud or a conductive metal stud.

The embodiment of the utility model provides an in, be provided with first circuit network and second circuit network on the PCB board 1. The first circuit network comprises a feed network, a first filter circuit and a low-noise amplifying circuit which are connected in sequence, and the feed network is respectively connected with the first feed component 30 and the third feed component 70. In this embodiment, after the GNSS antenna receives the signal, the signal first passes through the feed network, and then passes through the first filter circuit, filters a communication signal in the signal, such as a 4G communication signal, a bluetooth communication signal, and the like, and finally, the signal after filtering is amplified by the low noise amplification circuit. Due to the effect of the first filter circuit, communication signals are filtered, so that signal interference of a communication antenna can be avoided, and the navigation and positioning precision is ensured. The second circuit network includes a second filter circuit, the second filter circuit is connected to the second feeding component 40, and after the signal passes through the second filter circuit, the navigation positioning signal and the irrelevant communication signal in the signal are filtered, for example, the second radiation component 4 is used to implement 4G communication, at this time, the second filter circuit is also used to filter other communication signals except for 4G communication, so as to avoid interference of other signals.

The first circuit network and the second circuit network may be optionally disposed on a side of the PCB board 1 away from the first dielectric board 2. For this purpose, in an optional embodiment, a shielding cover 8 is disposed on a side of the PCB board 1 facing away from the first dielectric board 2, and the shielding cover 8 covers the first circuit network and the second circuit network therein to prevent interference of external signals.

The first feeding component 30, the second feeding component 40 and the third feeding component 70 may be selected as coaxial probes, taking the first feeding component 30 as an example, the coaxial probes sequentially pass through the first dielectric plate 2 and the first radiating component 3, one end of the coaxial probes is connected to the first radiating component 3, and the other end of the coaxial probes is connected to the PCB board 1. In an alternative embodiment, the first feeding means 30 and the third feeding means 70 may be selected as a plurality of coaxial probes, preferably 4, and the second feeding means 40 may be selected as 1 coaxial probe.

In the embodiment of the present invention, the second radiation part 4 is further provided with a grounding short-circuit post 41. Specifically, the grounding short-circuit column 41 penetrates through the second radiation member 4, the first dielectric plate 2 and the PCB board 1, one end of the grounding short-circuit column 41 is connected to the second radiation member 4, and the other end is grounded, for example, the grounded end of the grounding short-circuit column 41 may be selected as a connection ground plate.

It should be noted that, in the embodiment of the present invention, the ground connected to the ground shorting bar 41 is the same as the bottom surface of the first dielectric plate 2, and it can also be understood that the ground connected to the ground shorting bar 41 is different from the bottom surface of the second dielectric plate 6, so that after the second dielectric plate 6 and the third radiation member 7 are disposed, the signal generated by the second radiation member 4 has little influence on the signal generated by the third radiation member 7.

In an alternative embodiment, the second radiation member 4 comprises a plurality of metal layers, which are connected to each other, including at least one metal layer provided on the surface of the first dielectric plate 2 and at least one metal layer provided on the side surface of the first dielectric plate 2. In this embodiment, the second radiation element 4 is an inverted-F antenna, and the metal layers have different sizes, so that the metal layers have different resonant frequencies respectively to match signals of different frequency bands. In a specific embodiment, the second radiation component 4 includes a first metal layer 400, a second metal layer 401, a third metal layer 402, and a fourth metal layer 403, where the first metal layer 400 is disposed at an edge of an upper surface of the first dielectric slab 2, the second metal layer 401, the third metal layer 402, and the fourth metal layer 403 are disposed at side surfaces of the first dielectric slab 2, the second metal layer 401 and the third metal layer 402 are respectively connected to the first metal layer 400, and the third metal layer 402 is further connected to the fourth metal layer 403.

In an alternative embodiment, a plurality of second radiation members 4 are included, and the plurality of second radiation members 4 are arranged in order in the circumferential direction of the first dielectric sheet 2. The plurality of second radiation elements 4 may be selected to implement different functions, for example, the plurality of second radiation elements 4 may include a second radiation element 4 for implementing a 4G communication function and a second radiation element 4 for implementing a bluetooth communication function. In a specific embodiment, the second radiation element 4 includes three second radiation elements, wherein one second radiation element 4 is used to implement bluetooth communication, and the other two second radiation elements 4 are used to implement 4G communication, in this embodiment, the second radiation element 4 used to implement bluetooth communication forms a bluetooth antenna with the PCB board 1, the first dielectric board 2 and the corresponding second feeding element 5, and the second radiation element 4 used to implement 4G communication forms a 4G communication antenna with the PCB board 1, the first dielectric board 2 and the corresponding second feeding element, wherein the 4G communication antenna employs 2 radiation elements for transmission of high-speed data, and in a general case, the 4G communication antenna may also employ 1 radiation element.

In the embodiment of the present invention, the first radiation member 3 can be selected as a metal layer attached to the upper surface of the first dielectric plate 2, and the third radiation member 7 can be selected as a metal layer attached to the upper surface of the second dielectric plate 6.

The edge of the first radiation component 3 is provided with a first tuning branch 300 extending outwards, and the first tuning branch 300 is used for fine tuning the resonant frequency of the first radiation component 3; the edge of the third radiating element 7 is provided with a second tuning stub 700 extending outwards, the second tuning stub 700 being used for fine tuning the resonant frequency of the third radiating element 4.

To sum up, the utility model discloses multi-functional GNSS antenna has GNSS navigation positioning, 4G communication, bluetooth communication's function concurrently simultaneously, and it is integrated on an antenna with a plurality of antenna functions, compares in a plurality of antennas of separate design, has obviously saved installation space. On the basis that a plurality of antennas are integrated together, the embodiment of the utility model provides an in, have good isolation and anti ability of mutual interference between each antenna, consequently, can ensure the performance of multi-functional GNSS antenna, especially when first antenna element is as navigation positioning antenna, can reduce communication antenna to its interference and coupling, ensure positioning accuracy, avoid taking place the phenomenon that the satellite loses the lock; the metalized via hole is coupled with the first radiation part, so that the radiation caliber of the first radiation part is increased, the resonance frequency of the first radiation part is reduced, correspondingly, the size required by the first radiation part is correspondingly reduced in order to reach the preset resonance frequency, the size of the first radiation part is reduced, the size of the whole antenna is correspondingly reduced, and the miniaturization design of the antenna is facilitated.

In the description of the present invention, it should be noted that the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; the communication may be direct, indirect via an intermediate medium, or internal to both elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The utility model provides a multifunctional GNSS antenna, its characterized in that, including the PCB board, first dielectric plate and the first radiation part that set gradually, the PCB board with first radiation part links to each other through first feed part, still be provided with second radiation part and a plurality of metallization via hole on the first dielectric plate, second radiation part with the PCB board passes through second feed part and connects, and is a plurality of metallization via hole centers on first radiation part sets up, second radiation part locates a plurality ofly the outside of metallization via hole.

2. The multifunctional GNSS antenna of claim 1 wherein a boss is provided on the first dielectric plate, the boss being disposed around the first radiating member, the boss being provided with the metallized via.

3. The multifunctional GNSS antenna of claim 2 further comprising a second dielectric plate and a third radiating element, wherein the second dielectric plate is disposed on the first radiating element, the third radiating element is disposed on the second dielectric plate, and the third radiating element is connected to the PCB board through a third feeding element.

4. The multifunctional GNSS antenna of claim 3 wherein the bosses include a plurality of segments in a circumferential direction of the first radiation member, positioning grooves are provided between two adjacent segments of the bosses, positioning blocks are provided on the second dielectric plate, and the positioning blocks are embedded in the positioning grooves.

5. The multifunctional GNSS antenna of claim 4, wherein the positioning slot has the metalized via disposed therein, the positioning block is fastened to the positioning slot by a stud, and the stud is engaged with the metalized via disposed on the positioning slot.

6. The multifunctional GNSS antenna of claim 3, wherein the PCB board is provided with a first circuit network and a second circuit network;

the first circuit network comprises a feed network, a first filter circuit and a low-noise amplifying circuit which are sequentially connected, and the feed network is respectively connected with the first feed component and the third feed component;

the second circuit network includes a second filter circuit coupled to the second feed block.

7. The multifunctional GNSS antenna of claim 6 wherein the first circuit network and the second circuit network are disposed on a side of the PCB away from the first dielectric plate, a shield is disposed on a side of the PCB away from the first dielectric plate, and the first circuit network and the second circuit network are housed in the shield.

8. The multifunctional GNSS antenna of claim 1, wherein the second radiation member is provided with a ground shorting bar, one end of the ground shorting bar is connected to the second radiation member, and the other end of the ground shorting bar is grounded.

9. The GNSS antenna of claim 8, wherein the second radiating element includes a plurality of metal layers, the plurality of metal layers being connected to each other, the plurality of metal layers including at least one metal layer provided on a surface of the first dielectric plate and at least one metal layer provided on a side surface of the first dielectric plate.

10. The multifunctional GNSS antenna of claim 9 comprising a plurality of the second radiating members, the plurality of the second radiating members being circumferentially disposed along a periphery of the first dielectric plate.

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