CN202111219U - Ceramic bluetooth antenna - Google Patents

Abstract

The utility model discloses a ceramic bluetooth antenna. External electrodes are arranged at both ends of a cuboid ceramic substrate in the length direction; three layers of parallel metal structures are embedded in the cuboid ceramic substrate; the three layers of metal structures are communicated up and down through the two external electrodes; a metal on the middle layer is a rectangular metal band for connecting the two external electrodes; metals on the top layer and the bottom layer have the same structure and are both bent metal bands extending from the two external electrodes towards the inside of the ceramic substrate; and by taking a plane which passes through the middle point of the ceramic substrate in the length direction and is parallel to both the end faces in the length direction as a symmetrical plane, the two bent metal bands on the same layer are not connected with the symmetrical plane and are symmetrical along the symmetrical plane. The ceramic bluetooth antenna is easy to realize impedance matching and does not need to be externally connected with a matching circuit. Metal through holes between the layers are eliminated. The ceramic bluetooth antenna is easy to process. When the ceramic bluetooth antenna is in use, welding can be carried out by reversing or exchanging the directions of the two external electrodes up and down and the same performance can be kept.

Description

A kind of ceramic Bluetooth antenna

Technical field

The invention belongs to the antenna structure design field, relate to a kind of Bluetooth antenna.

Background technology

Along with developing rapidly of wireless communication technique, portable radio communication device becomes an indispensable part in the modern life.Bluetooth is the technology of a kind of low cost, low-power and short-distance wireless communication, can be applied on the portable radio communication device widely.The size of Bluetooth antenna and performance are determining the size and the performance of bluetooth module.

Existing commonly used Bluetooth antenna mainly contains two kinds of dull and stereotyped inverted F antenna and ceramic antennas.Compare with dull and stereotyped inverted F antenna, the ceramic antenna biggest advantage is that size is little, therefore normally directly is connected with circuit board as chip device.Because ceramic antenna is small-sized, also can bring some disadvantageous aspects, be difficult to directly and the feeder line coupling such as ceramic antenna, carry out impedance matching through external match circuit usually.In order to reduce size, most of chip ceramic antennas adopt sandwich construction, such as the utility model " based on the Bluetooth antenna and the bluetooth module of LTCC technology " of mandate in 2009.Yet the interlayer metal via hole of this structure makes that but processing cost obviously increases; And the internal structure of this ceramic antenna is normally asymmetric, therefore when producing, need distinguish mark to two external electrodes, has increased operation and has just increased cost.

Summary of the invention

In order to overcome the high deficiency of prior art processing cost; The present invention provides a kind of ceramic Bluetooth antenna; Utilize the matching problem of the metal tape solution antenna impedance of multilayer bending; Utilize the connection of external electrode to eliminate the metallic vias of interlayer, designed symmetrical internal structure to omit the operation of external electrode being distinguished mark.

The technical solution adopted for the present invention to solve the technical problems is: comprise ceramic substrate, external electrode and three-layer metal structure.Ceramic substrate is a cuboid, and the two ends of its length direction are provided with external electrode; In ceramic substrate, be embedded with three layers of parallel metal structure, the three-layer metal structure is through UNICOM about two external electrodes; Metallic intermediate layer is for connecting the rectangular metal band of two external electrodes; Top layer is identical with the structure of underlying metal, is from the metal tape of two external electrodes to the inner bending of extending of ceramic substrate; With the intermediate point of crossing the ceramic substrate length direction and the plane that is parallel to the length direction both ends of the surface is the plane of symmetry, is not connected with the metal tape of two bendings of one deck with the plane of symmetry, and symmetrical along this plane of symmetry.

The invention has the beneficial effects as follows: ceramic Bluetooth antenna of the present invention adopts sandwich construction, and top layer and underlying metal adopt the metal tape of bending, has increased the length of metal like this, is easy to realize impedance matching, does not need external match circuit; Described ceramic Bluetooth antenna three-layer metal structure has been eliminated the metallic vias of interlayer through UNICOM about two external electrodes; Described ceramic Bluetooth antenna is along the long side direction of ceramic substrate symmetry, and also symmetry of three-layer metal structure up and down, so the direction that this antenna can turn upside down or change two external electrodes in use welds, and all can keep identical performance.

Below in conjunction with accompanying drawing and embodiment the present invention is further specified.

Description of drawings

Fig. 1 is the present invention's pottery Bluetooth antenna structural representation.

Fig. 2 is the top view of Fig. 1.

Fig. 3 is the end view of Fig. 1.

Among the figure, 1, ceramic substrate, 2, external electrode, 3, metallic intermediate layer, 4, top layer and underlying metal.

Embodiment

With reference to Fig. 1～3, the present invention is made up of ceramic substrate 1, external electrode 2, metallic intermediate layer 3 and top layer and underlying metal 4.

The ceramic substrate 1 of said ceramic Bluetooth antenna, external electrode 2, metallic intermediate layer 3, top layer and underlying metal 4 adopt LTCC technology sintering.The two ends of the ceramic substrate 1 of cuboid are provided with external electrode 2; In ceramic substrate 1, be embedded with three layers of parallel metal structure, the three-layer metal structure is through two external electrodes UNICOM about in the of 2; Metallic intermediate layer 3 is for connecting the rectangular metal band of two external electrodes 2; The structure of top layer underlying metal 4 is identical, is from the metal tape of two external electrodes 2 to the inner bending of extending of ceramic substrate 1, connect in the middle of the metal tape with two bendings of one deck, and along the long side direction symmetry of ceramic substrate 1.Metal tape can bend with arbitrary shape; Length does not have clear and definite requirement, is as the criterion with the performance that satisfies antenna.

Ceramic substrate 1 is along long side direction symmetry, and also symmetry of three-layer metal structure up and down, so the direction that this antenna can turn upside down or change two external electrodes 2 welds, and all can keep identical performance.This antenna is FD feed electric current from any external electrode 2 in use.The top layer underlying metal 4 that links to each other with this external electrode 2 is equivalent to a bit of high resistant open-circuit line, and is little to the performance impact of antenna.The signal code metallic intermediate layer 3 of flowing through reaches another external electrode 2 of antenna end, upwards flows to top layer and the underlying metal 4 that links to each other with this external electrode 2 then downwards.Top layer and underlying metal 4 are the metal tape of bending, have increased the length of metal like this.The length that electric current is flowed through is quarter-wave.

In the present embodiment, the ceramic substrate 1 of employing is of a size of 9mm * 2mm * 1mm, and the dielectric constant of ceramic substrate 1 is 30, and loss tangent is 0.001.The spacing of three-layer metal structure is 0.4mm.The width of metallic intermediate layer 3 is 0.3mm.The broken line width of top layer underlying metal 4 is 0.4mm, and the broken line spacing is 0.3mm.

This pottery Bluetooth antenna can be connected with planar transmission lines such as microstrip line or co-planar waveguide are convenient in use.The end of center conduction band that any one external electrode 2 of ceramic Bluetooth antenna is welded on conduction band or 50 ohm of co-planar waveguides of 50 ohm microstrip gets final product.Signal code through metallic intermediate layer 3, flows into the top layer underlying metal 4 that links to each other with other end external electrode 2 from external electrode 2 feed-ins of this welding.Ground level is not laid in the below of pottery Bluetooth antenna, to realize omnidirectional radiation.

The performance index of ceramic Bluetooth antenna are among this embodiment:

Operating frequency: 2400MHz～2450MHz;

Standing-wave ratio:＜3;

Antenna gain: 2dBi;

Input impedance: 50 ohm;

Directivity: the 360 ° of omnidirectional radiations in orientation.

Should be understood that; The above is merely preferred embodiment of the present invention, is not sufficient to limit technical scheme of the present invention, concerning those of ordinary skills; Within spirit of the present invention and principle; Can change the parameter of antenna according to above-mentioned explanation, and the technical scheme after all these changes all should belong to the protection range of accompanying claims of the present invention.

Claims (1)

1. a ceramic Bluetooth antenna comprises ceramic substrate, external electrode and three-layer metal structure, it is characterized in that: ceramic substrate is a cuboid, and the two ends of its length direction are provided with external electrode; In ceramic substrate, be embedded with three layers of parallel metal structure, the three-layer metal structure is through UNICOM about two external electrodes; Metallic intermediate layer is for connecting the rectangular metal band of two external electrodes; Top layer is identical with the structure of underlying metal, is from the metal tape of two external electrodes to the inner bending of extending of ceramic substrate; With the intermediate point of crossing the ceramic substrate length direction and the plane that is parallel to the length direction both ends of the surface is the plane of symmetry, is not connected with the metal tape of two bendings of one deck with the plane of symmetry, and symmetrical along this plane of symmetry.

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