Patent Application
20090256764
1. Field of the Invention
This invention relates to an antenna device, more particularly to an antenna device that has an adjustable frequency.
2. Description of the Related Art
During operation, the matching circuit 14 adjusts a frequency of the radiating element 11 whenever the frequency of the radiating element 11 deviates from a desired frequency.
The aforementioned conventional antenna device 100 is disadvantageous in that the matching circuit 14 thereof causes signal loss, enlarges a physical size thereof, and increases production costs thereof.
Therefore, the object of the present invention is to provide an antenna device that can overcome the aforesaid drawbacks of the prior art.
According to the present invention, an antenna device comprises an antenna and a transmission element. The antenna includes a grounding element and a radiating element. The radiating element is connected to the grounding element and is provided with a plurality of spaced apart feeding portions. The transmission element is connected selectively to one of the feeding portions. When the transmission element is connected to one of the feeding portions, the radiating element operates in a distinct frequency.
Other features and advantages of the present invention will become apparent in the following detailed description of the preferred embodiment with reference to the accompanying drawings, of which:
Referring to
The antenna device 200 of this invention is mounted on a circuit board 201 of an electronic device (not shown).
The antenna is a planar inverted-F antenna, and includes a grounding element 30 and a radiating element 20.
The grounding element 30 is connected electrically to an electrical ground (not shown) of the circuit board 201.
The radiating element 20 has first and second edges 23, 24 that are opposite to each other in a longitudinal direction (X), has a third edge 25 that extends in the longitudinal direction (X) and that interconnects the first and second edges 23, 24, and is provided with a plurality of feeding portions 21 that are spaced apart along the third edge 25 thereof. The third edge 25 of the radiating element 20 is formed with a plurality of grooves, each of which is defined by a groove-defining wall. Each of the feeding portions 21 is defined by the groove-defining wall of a respective one of the grooves. In this embodiment, the feeding portions 21 are spaced apart at equal distances. Preferably, the feeding portions 21 are spaced apart by one millimeter. In an alternative embodiment, the feeding portions 21 are spaced apart at different distances.
The radiating element 20 is marked with gradations 22, i.e., from “1” to “7”, that are disposed adjacent to the feeding portions 21.
The antenna further includes a connector 50 that interconnects the grounding element 30 and the first edge 23 of the radiating element 20. As such, the feeding portions 21 are disposed at different distances with respect to the connector 50.
The transmission element 40 has first and second terminals 41, 42, and a shield 43. The first terminal 41 of the transmission element 40 is connected to a circuit (not shown) of the circuit board 201. The second terminal 42 of the transmission element 40 is connected selectively to one of the feeding portions 21. The shield 43 of the transmission element 40 is connected to the grounding element 30.
It is noted that the second terminal 42 of the transmission element 40 may be connected to the feeding portion 21 by inserting the second terminal 42 into the groove that corresponds to the feeding portion 21. Moreover, when the second terminal 42 of the transmission element 40 is connected to one of the feeding portions 21, the radiating element 20 operates in a distinct frequency. Further, the farther the feeding portion 21 from the connector 50 to which the second terminal 42 of the transmission element 40 is connected, the higher the frequency at which the radiating element 20 operates.
As an example of an application of the antenna device 200 of this invention, when the electronic device is a Bluetooth device that operates between the 2.4 GHz and 2.5 GHz frequency band and when a frequency difference between each adjacent pair of the feeding portions 21 is 20 MHz, the second terminal 42 of the transmission element 40 is simply connected to one of the feeding portions 21 such that the radiating element 20 operates at or close to a frequency, i.e., a center frequency, of 2.45 GHz.
Although the frequency difference between the adjacent pairs of the feeding portions 21 is exemplified as 20 MHz, it should be apparent to those skilled in the art that the frequency difference between each of the adjacent pairs of the feeding portions 21 may be increased or decreased as required.
It has thus been shown that the antenna device 200 of this invention includes an antenna and a transmission element 40. The antenna includes a grounding element 30 and a radiating element 20. The radiating element 20 is connected to the grounding element 30 and has a plurality of feeding portions 21. The transmission element 40 is connected selectively to one of the feeding portions 21 to thereby adjust a frequency at which the radiating element 20 operates. As such, unlike the conventional antenna device 100 (see
While the present invention has been described in connection with what is considered the most practical and preferred embodiment, it is understood that this invention is not limited to the disclosed embodiment but is intended to cover various arrangements included within the spirit and scope of the broadest interpretation so as to encompass all such modifications and equivalent arrangements.
