The application claims the benefit of Taiwan Patent Application No. 100123960, filed on Jul. 6, 2011, at the Taiwan Intellectual Property Office, the disclosures of which are incorporated herein in their entirety by reference.
The present invention relates to a mini multi-frequency antenna, especially to an antenna able to work in a WiFi local area network (LAN) at the frequency of 2.4˜2.5 GHz.
As the wireless communication technologies become mature, plenty of new information products have been developed. Various wireless communication networks have become ones of the most important routes by the public to exchange voices, text messages, data, information, video files, etc. Transmitting and receiving these electronic data, information or files carried by an electromagnetic wave in the wireless communication necessitate the antenna.
Therefore, the antenna is one of the most important components to affect the quality of the communication. Broadly reviewing all the products and technologies of the mobile communication up to now, no matter how advanced the technologies, what integrations of components and modules and what changes to the industrial designs, the design of the antenna is still one of the most important key technologies. The antenna designs with excellent performances can effectively raise the quality of the communication. A single antenna with good antenna design should be able to cover various frequency bands required in various wireless communication networks. In addition, for the availability to the portable wireless communication devices, e.g. cellular phones, personal digital assistants, etc., carried by the users, the antennas with mini sizes should be realized.
As shown in
This kind of antenna requires large power to accomplish the transmission function and large space as well, and accordingly the volume occupied by this kind of antenna in the prior art can not be effectively reduced.
For solving the issue that the volume occupied by the antenna in the prior can not be effective reduced, the present invention provides an excellent antenna with effectively reduced volume and the ability to work as a single mini-sized multi-frequency antenna at various frequency bands in the various wireless communication networks.
In accordance with one aspect of the present invention, an antenna for receiving and transmitting a signal is provided. The antenna includes a connection portion receiving and transmitting the signal, a first radiation portion and a second radiation portion. The connection portion includes a first end, a second end and a third end, wherein the first end is configured at a first distance from a ground. The first radiation portion is connected to the second end, and includes at least a folding area forming thereon at least a folding segment, wherein the folding segment and the connection portion have therebetween a shortest distance being a second distance. The second radiation portion is connected to the third end.
In accordance with another aspect of the present invention, an antenna for receiving and transmitting a signal is provided. The antenna comprises a signal feeding portion receiving and transmitting the signal, and a first frequency adjusting portion connected to the signal feeding portion. The first frequency adjusting portion includes a first extending portion and a second extending portion extended from the first extending portion and pointing toward the signal feeding portion.
In accordance with a further aspect of the present invention, an antenna for receiving and transmitting a signal is provided. The antenna comprises a signal feeding portion and a coupled portion. The signal feeding portion receives and transmits the signal, and includes a feeding end having a first climax. The coupled portion includes a bottom end having a second climax for being coupled to an electronic communication device, wherein the first and the second climaxes have therebetween a distance being one of distances equal to and larger than 1 mm.
The above objects and advantages of the present invention will become more readily apparent to those ordinarily skilled in the art after reviewing the following detailed descriptions and accompanying drawings, in which:
The present invention will now be described more specifically with reference to the following embodiments. It is to be noted that the following descriptions of preferred embodiments of this invention are presented herein for the purposes of illustration and description only; it is not intended to be exhaustive or to be limited to the precise form disclosed.
Before the manufacture of antennas, the required specifications, e.g. available communication frequency bands, pattern directions, gain, expected size of the antenna, etc., must be ascertained first to determine the antenna structure conforming to these required specification, and to select an appropriate feeding method. Then, the shape, size and other parameters of the antenna are primarily designed.
Although the conventional PIFA has advantages of low configuration, simple manufacturing processes and availability of operation at multi frequencies, the conventional PIFA has a drawback that the bandwidth is too narrow. For enlarging the bandwidth, the present invention develops a new design of the antenna in view of the distance between the PIFA metal plane and ground, and the distance between the feeding point and the radiation portion of the PIFA for minimizing the size of the antenna.
The folding structures of these radiation portions are described in detail as follows. The folding angle of the folding area 220 of the first radiation portion 22 is a right angle, i.e. 90 degree, and so is that of folding area 231 of the second radiation portion 23.
Through the structure of the antenna 2, the path length from the feeding point CP of the connection portion 21 to the segment end of the folding segment 221 of the first radiation portion 22, i.e. the dash line denoted as the path 1A in
Due to the minimized size and the availability of large bandwidth, the antennas of the present invention can be widely applied to various portable communication devices, e.g. cellular phones, personal digital assistants (PDAs), lap top computers, etc.
In addition, since the radio wave encounters different impedances when transmitting along the different sections of the antenna system, e.g. radio station, feeding line, antenna, free space, etc., a ground end 25 is designed as disposed between the folding segment 232 of the second radiation portion 23 and the hook 24 located at the lower edge of the second radiation portion 23 for matching the impedances.
Besides,
Some embodied examples of the present invention are described in the following.
1. An antenna for receiving and transmitting a signal is provided. The antenna comprises a connection portion receiving and transmitting the signal, a first radiation portion and a second radiation portion. The connection portion includes a first end, a second end and a third end, wherein the first end is configured at a first distance from a ground. The first radiation portion is connected to the second end, and includes at least a folding area forming thereon at least a folding segment, wherein the folding segment and the connection portion have therebetween a shortest distance being a second distance. The second radiation portion is connected to the third end.
2. In an antenna according to Example 1, each of the folding areas of the first radiation portion and the second radiation portion has a folding angle equal to a right angle.
3. In an antenna according to any one of the above examples, the second radiation portion includes at least a folding area having at least a folding segment parallel to the connection portion, and the second radiation portion has a lower edge configured with a hook to be embedded into a circuit board for installing the antenna onto the circuit board.
4. An antenna according to any one of the above examples further comprises a ground end disposed between the folding area of the second radiation portion and the hook for matching an impedance.
5. An antenna according to any one of the above examples has a path and an operating frequency corresponding to an operating wavelength, wherein the folding segment of the first radiation portion has a segment end, and the path between the first end and the segment end of the folding segment of the first radiation portion has a path length equal to one-fourth of the operating wavelength.
6. In an antenna according to any one of the above examples, each of the first and the second distances is one of distances equal to and larger than 1 mm.
7. In an antenna according to any one of the above examples, the connection portion, the first radiation portion and the second radiation portion are made in one piece.
8. In an antenna according to any one of the above examples, the antenna has an operating bandwidth in a range of 2.4 to 2.5 GHz.
9. An antenna for receiving and transmitting a signal is provided. The antenna comprises a signal feeding portion receiving and transmitting the signal and a first frequency adjusting portion. The first frequency adjusting portion is connected to the signal feeding portion, and includes a first extending portion and a second extending portion extended from the first extending portion and pointing toward the signal feeding portion.
10. An antenna according to any one of the above examples further comprises a second frequency adjusting portion coupled to an electronic communication device, connected to the signal feeding portion, and including a bottom end having a second climax, wherein the signal feeding portion has a first climax, and the first and the second climaxes have therebetween a distance being one of distances equal to and larger than 1 mm.
11. In an antenna according to any one of the above examples, the first and the second extending portions have an included angle equal to a right angle, and the second frequency adjusting portion includes at least a folding area having a folding angle equal to the right angle.
12. In an antenna according to any one of the above examples, the second frequency adjusting portion has a lower edge configured with a hook to be embedded into a circuit board for installing the antenna onto the circuit board, and the antenna further comprises a ground end disposed between the folding area of the second frequency adjusting portion and the hook for matching an impedance.
13. In an antenna according to Claim 10, the signal feeding portion, the first frequency adjusting portion and the second frequency adjusting portion are made in one piece, and the antenna has an operating bandwidth in a range of 2.4 to 2.5 GHz.
14. An antenna according to any one of the above examples has a path and an operating frequency corresponding to an operating wavelength, wherein the signal feeding portion has a first end configured at a first distance from a ground, the second extending portion has an extending end, the path is formed from the first end to the extending end and has a path length equal to one-fourth of the operating wavelength, the signal feeding portion and the second extending portion have therebetween a shortest distance being a second distance, and each of the first and the second distances is one of distances equal to and larger than 1 mm.
15. An antenna for receiving and transmitting a signal is provided. The antenna comprises a signal feeding portion and a coupled portion. The signal feeding portion receives and transmits the signal, and includes a feeding end having a first climax. The coupled portion includes a bottom end has a second climax for being coupled to an electronic communication device, wherein the first and the second climaxes have therebetween a distance being one of distances equal to and larger than 1 mm.
16. An antenna according to any one of the above examples further comprises a frequency adjusting portion connected to the signal feeding portion and including a first extending portion and a second extending portion extended from the first extending portion and pointing toward the signal feeding portion.
17. In an antenna according to any one of the above examples, the first and the second extending portions have an included angle equal to a right angle, and the coupled portion includes at least a folding area having a folding angle equal to the right angle.
18. In an antenna according to any one of the above examples, the coupled portion has a lower edge configured with a hook to be embedded into a circuit board for installing the antenna onto the circuit board, and the antenna further comprises a ground end disposed between the folding area of the coupled portion and the hook for matching an impedance.
19. In an antenna according to any one of the above examples, the signal feeding portion, the coupled portion and the frequency adjusting portion are made in one piece, and the antenna has an operating bandwidth in a range of 2.4 to 2.5 GHz.
20. An antenna according to any one of the above examples has a path and an operating frequency corresponding to an operating wavelength, wherein the signal feeding portion has a first end configured at a first distance from a ground, the second extending portion has an extending end, the path is formed from the first end to the extending end and has a path length equal to one-fourth of the operating wavelength, the signal feeding portion and the second extending portion have therebetween a shortest distance being a second distance, and each of the first and the second distances is one of distances equal to and larger than 1 mm.
While the invention has been described in terms of what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention needs not be limited to the disclosed embodiments. On the contrary, it is intended to cover various modifications and similar arrangements included within the spirit and scope of the appended claims which are to be accorded with the broadest interpretation so as to encompass all such modifications and similar structures.
Number | Date | Country | Kind |
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100123960 | Jul 2011 | TW | national |