1. Field of the Invention
The present invention relates to an antenna and a portable electronic device having the same.
2. Description of the Related Art
With the evolution of wireless communication technology, various portable devices are exploiting wireless communication technology for data transmission, thus causing the antenna design to evolve at a rapid rate. Nowadays, these portable communication devices are becoming lighter and smaller, and the antenna must also be reduced in size in order to be installed into these electronic devices.
In terms of antenna's exterior design, the lengthy external antenna that is designed to receive and transmit radio frequency has become shorter and has been internalized, and it makes the appearance of the devices more appealing. In terms of application aspect, antenna is able to take on different shapes and sizes, thus the antennas can be designed accordingly to comply with various electronic appliance standards and to cater for different system products. Therefore, antenna manufacturing has the characteristic of high versatility with low volume. However, the basic objective of designing an antenna is to improve the quality of signal transmission and reception, thus this property should not be compromised from improving its exterior appearance, size or choice of material.
Nowadays, the helical antenna and the monopole antenna are used in the circuit separately, and its pitfall is that both the helical antenna and the monopole antenna can only have a single-band frequency respectively. The applicant of the present invention has filed a U.S. patent application with application Ser. No. 11/806,287 on Can 31, 2007, which discloses a multi-frequency antenna combining with helix element and/or radiating element. The multi-frequency antenna comprises a helix element connecting to a feeding portion and a helix element connecting to a grounding portion. The radiating element is resonated with high frequency such as 5 GHz, and the helix element is resonated with low frequency such as 2.4 GHz. However, the multi-frequency antenna of the U.S. application Ser. No. 11/806,287 further comprises a base for fixing the radiating element and the helix element, and further for grounding and feeding capabilities.
The present provides an antenna, an antenna combination, and a portable electronic device having the antenna or the antenna combination.
It is an object of the present invention to provide an antenna, an antenna combination, and a portable electronic device having the antenna or the antenna combination for which the manufacturing process can be simplified.
It is another object of the present invention to provide an antenna, an antenna combination, and a portable electronic device having the antenna or the antenna combination for which the manufacturing cost can be reduced.
It is a further object of the present invention to provide an antenna, an antenna combination, and a portable electronic device having the antenna or the antenna combination for which a similar level of performance as that of the Planar Inverted F Antenna (PIFA) can be can achieved.
The antenna receives or transmits wireless signals by using a coaxial cable to feed current. The antenna comprises a radiator; a grounding portion; and an arc-shaped feeding portion coupled with the coaxial cable for feeding current, wherein a first end of the arc-shaped feeding portion is connected with the radiator, and a second end of the arc-shaped feeding portion is connected with the grounding portion.
The grounding portion of the antenna can comprise a helix structure.
In one embodiment, the antenna can further comprise a fixing portion extending from the grounding portion, the fixing portion can be shaped in circular, round, or polyhedron.
In another embodiment, the radiator of the antenna comprises a plurality of bending portions, for example, the radiator can have at least one U-shaped portion formed by the plurality of bending portions, in response to different requirements for high frequency resonance.
Furthermore, the present invention provides an antenna combination, which comprises a coaxial cable, a grounding element and the antenna depicted above. The coaxial cable is connected with the arc-shaped feeding portion of the antenna to feed current into the antenna. The grounding element covers at least one portion of the grounding portion of the antenna.
Still further, the coaxial cable comprises a feeding core, an isolating layer, a meshed metal layer, and an insulating sleeve. The isolating layer covers the feeding core and exposes a portion of the feeding core. The meshed metal layer covers the isolating layer and exposes a portion of the isolating layer. The insulating sleeve covers the meshed metal layer and exposes a portion of the meshed metal layer.
The arc-shaped feeding portion of the antenna is connected with the feeding core, wherein the arc-shaped feeding portion can be shaped in circular in order to facilitate the process of connecting the feeding core with the arc-shaped feeding portion when manufacturing. Preferably, the grounding portion can be shaped in helical to cover the meshed metal layer of the coaxial cable therein. The helical grounding portion can have more contact areas with the meshed metal layer and be fixed with the meshed metal layer, however, the grounding portion of the present invention is not limited to helical shape, on the other hand, the grounding portion can have different shapes as long as it can contact with the meshed metal layer of the coaxial cable.
The grounding portion and the meshed metal layer can be fixed with each other, for example through soldering. The arc-shaped feeding portion and the feeding core can be fixed with each other through soldering as well.
In order to fix the antenna to other application devices, the fixing portion of the antenna can use a fixing means (such as screwing or soldering) to fix the antenna to a case of other application device. The fixing portion can be in any shape, for example, the fixing portion can be round, square, triangular, or polyhedron.
Moreover, the antenna disclosed in the present invention further comprises a fixed connection portion extending from the grounding portion so as to meet different requirements by connecting the antenna with another antenna.
Besides, the above-mentioned antenna or antenna combination can be applied in portable electronic devices. Therefore, the present invention discloses a portable electronic device, which can be a laptop, a personal digital assistant (PDA), or a mobile phone capable of transmitting/receiving wireless signals. The portable electronic device disclosed in the present invention comprises a case, a wireless communication module, and the above-mentioned antenna combination, a coaxial cable of the antenna combination is connected with the wireless communication module for transmitting/receiving wireless signals, and the antenna combination is disposed within the case; for example, the antenna combination is fixed to the case through the fixing portion of the antenna.
Various frequencies can be generated through the antenna disclosed in the present invention to cover a wide range of bandwidths for different system requirements. The antenna of the present invention has high practical industrial value as it is simple to design and all the components are formed in one single process, therefore it also leads to low manufacturing cost.
The present invention provides an antenna, an antenna combination, and a portable electronic device having the same. The advantages and innovative features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.
Please refer to
The antenna 1 disclosed in the present invention comprises an arc-shaped feeding portion 11, a grounding portion 12, and a radiator 13. The arc-shaped feeding portion 11 is connected with the coaxial cable 2 for feeding current thereto. A first end of the arc-shaped feeding portion 11 is connected with the radiator 13, and a second end of the arc-shaped feeding portion 11 is connected with the grounding portion 12.
The radiator 13 of the antenna 1 can comprise a plurality of bending portions for adjusting the high frequency resonance of the antenna 1; that is, changing the current distribution by using the plurality of bending portions to meet different requirements of different frequency resonances. For example, the bending portion of the radiator 13 can be shaped in U shape as illustrated. Based on different requirements, the present invention can use a plurality of bending portions to form a plurality of U shapes for different high frequency resonance conditions, details will be described below.
The arc-shaped feeding portion 11 of the antenna 1 is disposed between the radiator 13 and the grounding portion 12. The grounding portion 12 contacts a portion of the coaxial cable 2, which will be described in detail later.
In one embodiment, the antenna 1 can further comprise a fixing portion 16 extending from the grounding portion 12. The fixing portion 16 can have different shapes, such as circular, round, or polyhedron, etc.
The grounding portion 12 of the antenna 1 can have a helical structure, which will be described in detail later.
Besides, please refer to
The coaxial cable 2 can comprise a feeding core 21, an isolating layer 22, a meshed metal layer 23 and an insulating sleeve 24. Stripping by layers, the isolating layer 22 covers the feeding core 21 and exposes a portion of the feeding core 21 as illustrated; the meshed metal layer 23 covers the isolating layer 22 and exposes a portion of the isolating layer 22; and the insulating sleeve covers the meshed metal layer 23 and exposes a portion of the meshed metal layer 23.
In one embodiment, the arc-shaped feeding portion 11 of the antenna 1 is connected with the feeding core 21 of the cable 2, the arc-shaped feeding portion 11 can be shaped in circular in order to facilitate the process of connecting the feeding core 21 with the arc-shaped feeding portion 11 when manufacturing. For example, the arc-shaped feeding portion 11 and the feeding core 21 can be fixed with each other by soldering.
Preferably, the grounding portion 12 can be shaped in helical to cover the meshed metal layer 23 of the coaxial cable 2 therein. The helical grounding portion 12 can have more contact areas with the meshed metal layer 23 and be fixed with the meshed metal layer 23. However, the grounding portion 12 of the present invention is not limited to the helical shape, on the other hand, the grounding portion 12 can have different shapes. The grounding portion 12 and the meshed metal layer 23 can be further fixed with each other by soldering.
The antenna 1 can further comprise a second grounding portion 14 disposed between the arc-shaped feeding portion 11 and the first grounding portion 12. A connecting portion 15 can be further provided between the second grounding portion 14 and the arc-shaped feeding portion 11, the shape of the connecting portion 15 can be varied based on different design requirements.
The antenna 1 and the coaxial cable 2 of the present invention can be grounded through the covering portion 31, 32 of the grounding element 3 covering the grounding portion 12 and the grounding portion 14 respectively.
In order to fix the antenna 1 to other application devices (which will be explained below), a fixing portion 16 of the antenna 1 can be adapted to screw or solder the antenna 1 to other application devices. The fixing portion 16 can be in any shape, such as round, square, triangular, polyhedron, or the like.
Please refer to
The connecting portion 15 shown in
Similarly,
Still further, although the fixing portion 16, 56 shown respectively in
As mentioned above, in order to simplify the manufacturing process, the grounding portion 12 illustrated in
Please refer to the embodiment of
Besides, all of the antennas provided in the present invention can be applied in various portable electronic devices. Another aspect of the present invention discloses a portable electronic device.
Please refer to
As shown in
It will be apparent to those skilled in the art that various modifications and variations can be made to the structure of the present invention without departing from the scope or spirit of the invention. In view of the foregoing, it is intended that the present invention cover modifications and variations of this invention provided they fall within the scope of the following claims and their equivalents.
Number | Date | Country | Kind |
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96135530 | Sep 2007 | TW | national |
This application is a continuation-in-part (CIP) of application Ser. No. 11/826,240, filed on Jul. 13, 2007. The prior application is herewith incorporated by reference in its entirety.
Number | Name | Date | Kind |
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6812892 | Tai et al. | Nov 2004 | B2 |
6861986 | Fang et al. | Mar 2005 | B2 |
7439911 | Wang | Oct 2008 | B2 |
Number | Date | Country | |
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20090015504 A1 | Jan 2009 | US |
Number | Date | Country | |
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Parent | 11826240 | Jul 2007 | US |
Child | 12076466 | US |