Multi-band antenna

Abstract

A multi-band antenna includes a radiating element comprising a first metal patch, a second metal patch extending along a direction different from the first metal patch, a grounding element parallel to the radiating element with a certain distance, a resonant cavity produced by said certain distance between separated the radiating element and the grounding element, a first pad downward extending from an edge of the first metal patch to form a feeding pad, and a second pad downward extending from an edge of the second metal patch to form a grounding pad; wherein the edge from which the first pad extending is bordering the edge of the second metal patch with the second pad.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a conventional multi-band patch antenna;

FIG. 2 is a perspective view illustrating a multi-band antenna of preferred embodiment of the present invention; and

FIG. 3 is a exploded and perspective view of FIG. 2.

DETAILED DESCRIPTION OF THE INVENTION

Reference will now be made in detail to a preferred embodiment of the present invention.

Reference to FIG. 2 to FIG. 3, perspective views of a multi-band antenna 1 in accordance with a preferred embodiment of the present invention are shown.

The multi-band antenna 1 comprises a Z shape radiating element 2 and a grounding element 3. The radiating element 2 comprises a first metal patch 21, a second metal patch 22 and a third metal patch 23. The first metal patch 21 extends from its beginning edge 211 to an end 210 in a direction along the plus X axis. The second metal patch 22 extends from the first metal patch 21 to an end 220 in a direction along the plus Y axis. The third metal patch 23 extends from the second metal patch 22 to an end 230 in a direction along the minus X axis. And there is a distance between the end 220 and the third metal patch 23. A first pad 24 connects the first metal patch 21 on a point apart from the end 210 with a distance and is perpendicular to and under the first metal patch 21. A second pad 25 connects the second metal patch 22 on a point adjacent to but apart from the first metal patch 22. The grounding element 3 is polygonal and comprises a side edge 30, some holes 31 with different shapes, an L-shape cutout 32 entad extending from the side edge 30, a rectangular notch 33, a circular fixing aperture 34 and two rectangular opens 35. A part of the holes 31 is adjacent to an edge different from and bordering the side edge 30. The radiating element 2 is separated from the grounding element 3 with a certain distance in vertical direction to form a resonant cavity 4. For keeping the distance between the radiating element 2 and the grounding element 3 well, a plastic substrate 5 is fastened between the radiating element 2 and the grounding element 3. The height of the plastic substrate 5 is certain, and the radiating element 2 is set on the topside of the plastic substrate 5 and the grounding element 3 is set on the underside of the plastic substrate 5. The plastic substrate 5 comprises some posts 51 extending from the undersurface thereof in a direction perpendicular to the plastic substrate 5 to fasten the plastic substrate 5 with the radiating element 2 to the grounding element 3 and a hole 52 therethrough to assemble the plastic substrate 5 and the grounding element 3 together to the electronic device through the fixing aperture 34 corresponding with the plastic substrate 5. The two rectangular opens 35 of the grounding element 3 are on the two opposite sides of the plastic substrate 5. In other embodiment, the plastic substrate 5 also can be made from other insulative material and it can be omitted for unnecessary in the preferred embodiment. The first pad 24 goes through the cutout 32 without touching the grounding element 3, and the second pad 25 goes through the notch 33. The first pad 24 connects a feeding line (not shown) to form a feeding pad with a feeding point and the second pad 25 connects the grounding element 3 to form a grounding pad with a grounding point.

The first metal patch 21 of the radiating element 2 is used to receive and send a high frequency signal (5 GHz) to form a first frequency band. The third metal patch 23 is used to receive and send a low frequency signal (2 GHz) to form a second frequency band. In this antenna, the distance between the grounding point and the feeding point has a great influence to the impedance matching which is a important parameter of the antenna, thus, when the height of the antenna is reduced, the enough distance is provided by adjusting the distance between the grounding point and the feeding point. So adjusting the distance between the first pad 24 and the second pad 25 can achieve the intent of matching impedance. The second metal patch 22 is beyond the third metal patch 23 to form an extrusive metal patch to adjust the impedance matching better. In this embodiment, the first metal patch 21 is 9.36 mm. The first pad 24 has a length of 2.00 mm from the beginning edge 211 of the first metal patch 21. The length of the second metal patch is 11.30 mm. The distance between the second pad 25 and the end of the second metal patch 22 is 10.90 mm. The antenna is able to achieve wider band width through regulating the length, width, or position of the second metal patch 22.

While the foregoing description includes details which will enable those skilled in the art to practice the invention, it should be recognized that the description is illustrative in nature and that many modifications and variations thereof will be apparent to those skilled in the art having the benefit of these teachings. It is accordingly intended that the invention herein be defined solely by the claims appended hereto and that the claims be interpreted as broadly as permitted by the prior art.

Claims

1. A multi-band antenna, comprising: a radiating element comprising a first metal patch, a second metal patch extending along a direction different from the first metal patch;a grounding element parallel to the radiating element with a certain distance;a resonant cavity produced by said certain distance between separated the radiating element and the grounding element;a first pad downward extending from an edge of the first metal patch to form a feeding pad; anda second pad downward extending from an edge of the second metal patch to form a grounding pad;wherein the edge from which the first pad extending is bordering the edge of the second metal patch with the second pad.

2. The multi-band antenna as claimed in claim 1, wherein said second metal patch extends from the first metal patch in a direction perpendicular to the first metal patch.

3. The multi-band antenna as claimed in claim 2, also comprises a third metal patch extends from the second metal patch in a direction perpendicular to the first metal patch, wherein the first metal patch is wider than the second metal patch and the third metal patch is wider than the first metal patch.

4. The multi-band antenna as claimed in claim 2, wherein said second metal patch is beyond the third metal patch to form an extrusive metal patch and the third metal patch is parallel to the first metal patch.

5. The multi-band antenna as claimed in claim 2, wherein said first metal patch works at a frequency of 5 GHz and the third metal patch works at a frequency of 2.5 GHz.

6. The multi-band antenna as claimed in claim 1, wherein said first pad connects the first metal patch on a point apart from the end of the first metal patch with a distance, and the second pad connects the second metal patch on a point adjacent to but apart from the first metal patch.

7. The multi-band antenna as claimed in claim 1, wherein the position of said first pad and second pad are adjustable for the need of impedance matching of the multi-band antenna.

8. The multi-band antenna as claimed in claim 1, wherein said grounding element comprises a cutout to provide an alleyway for the first pad going through, a notch to provide a way for the second pad going through.

9. The multi-band antenna as claimed in claim 8, wherein said first pad is untouched the grounding element.

10. The multi-band antenna as claimed in claim 1, wherein said multi-band antenna comprises an insulative substrate between the radiating element and the grounding element, wherein the radiating element is on the top of the insulative substrate and the grounding element is below the insulative substrate.

11. The multi-band antenna as claimed in claim 10, wherein said grounding element comprises some holes, said insulative substrate comprises some posts corresponding to the holes, and the posts goes through the holes to fasten the insulative substrate with the radiating element on the grounding element.

12. The multi-band antenna as claimed in claim 11, wherein said insulative substrate is a plastic substrate.

13. The multi-band antenna as claimed in claim 10, wherein said first pad and second pad are on the same side of the insulative substrate.

14. The multi-band antenna as claimed in claim 10, wherein said grounding element also comprises a pair of opens respectively on the two sides of the insulative substrate.

15. A multi-band antenna, comprising: a radiating element comprising a first metal patch, a second metal patch extending along a direction different from the first metal patch;a grounding element spaced from the radiating element with a certain distance;a resonant cavity produced by said certain distance between separated the radiating element and the grounding element;a first pad downward extending from an edge of the first metal patch to form a feeding pad; anda second pad downward extending from an edge of the second metal patch to form a grounding pad; whereinboth said feeding pad and said grounding pad extend beyond the grounding element.

16. The antenna as claimed in claim 15, wherein said first metal patch and said second metal patch commonly define an L-shaped configuration on which said two edges are located.

17. The antenna as claimed in claim 15, wherein the feeding pad is located in a slot of the grounding element while the grounding pad is located in a through hole in the grounding element.