The present invention relates to an antenna device used in wireless technology, and in particular to an antenna device with at least a radiation pattern adjustment element.
It is well known that an antenna is the key element to transmit/receive (transceive) microwaves in wireless technology such as wireless communication and wireless data transfer, where the antenna transforms electrical currents generated by a transmitter into microwaves and transmits the microwaves in free space. The antenna also captures microwaves and transforms them into electrical currents, which are then processed by a receiver.
Further, electromagnetic pulse, which is generated by the presence of electric currents in an antenna, radiates in to free space from the site of an antenna by the speed of light, and the direction of which the electric field travels is perpendicular to the direction of the travel of the electromagnetic pulse. The electric field is related to only two parameters, and they are the distance and the radiation angle. The intensity of the electric field decreases with the square of the distance from the antenna, and the graphical representation of the intensity of the radiation of the electric field to the radiation angle from the perpendicular is defined as a radiation pattern.
Please refer to
On the other hand, wireless technology such as peer-to-peer connection and satellite communications are best fit with antennas that concentrate their electric field to a rather small region. Since such antennas are of focused radiation, their overall power of the energy output is able to decrease to a desired level, while the energy density per unit area is able to increase to a certain amount. The radiation of such antennas in other directions, therefore, is relatively weak in intensity and small in coverage-the physical geological area where signal is still at a level that can be transceived-and that reduces the occasions of meaningless electromagnetic interferences. Such antennas are the so-called directional antennas.
Further, omni-directional antennas of the electronic devices in conventional use are those of dipole antennas, Marconi antennas, etc., while directional antennas of the same use are those of flat antennas, microstripe antenna, disk antenna, and PIFA antennas. In addition, once the kind of antenna used in an electronic device is determined in advance, the omni-directional or the directional characteristic of the electronic device with the specific kind of the antenna arranged therein is determined.
Although an electronic device with an omni-directional antenna is noted with the homogeneity of the radiation pattern the antenna generates, the distance of the wireless signal transceiving of the omni-directional antenna is relatively shorter than that of a directional antenna of the same power in a desired direction, while the gain, which is the relative increase in radiation at the maximum point expressed as a value in dB above a standard, is smaller than that of a directional antenna in the direction of focused radiation pattern. However, an electronic device with a directional antenna, on the contrary, is strongly limited by the direction when it comes to the transceiving of wireless signals.
A primary object of the present invention, therefore, is to provide an antenna device with at least one radiation pattern adjustment element to adjust the radiation pattern of an antenna element by a simple element.
Another object of the present invention is to provide an antenna device to adjust the radiation pattern of an omni-directional antenna, in order to increase the gain and improve the signal transceiving ability of the omni-directional antenna.
A further object of the present invention is to provide an antenna device to adjust the radiation pattern of a directional antenna, with the aim to further increase the directional of the radiation pattern, and the gain of the directional antenna in a desired direction as a consequence.
A further object of the present invention is to provide an antenna device to adjust the radiation pattern of a directional antenna, in order to alleviate the directional limitation of such antenna.
To realize the above objects, the present invention installs an antenna device with an antenna element adapted to establish a radiation pattern during the transceiving of the wireless signal and at least one radiation pattern adjustment element arranged at an adjacent position with respect to the antenna element and within the established radiation pattern of the antenna element to adjust the radiation pattern of the antenna element. Moreover, the radiation pattern adjustment element could be a magnetic material with a predetermined permeability or a dielectric material with predetermined dielectric constant.
In the preferred embodiment of the present invention, the radiation pattern adjustment element could be arranged at adjacent positions above, below, or beside the antenna element, while the arrangement of the radiation pattern adjustment element within positions where the intensity of the radiation pattern of the antenna element is relatively stronger and relatively weaker is also feasible.
In comparison with the conventional technologies, the present invention enables an antenna device and an electronic device equipped with the same to adjust the radiation pattern of an antenna element, which brings about the increase in gain of an omni-directional antenna, the increase in directionality of such antenna, and the improvement of the transceiving of wireless signals. Besides, the present invention not only alleviates the limitation in directionality of a directional antenna, but also increases the gain of such antenna in desired directions by further enhance the directionality of a directional antenna. The present invention, therefore, achieves what is desired when applied to either an omni-directional antenna or a directional one.
These and other objects, features and advantages of the invention will be apparent to those skilled in the art, from a reading of the following brief description of the drawings, the detailed description of the preferred embodiment, and the appended claims.
The structure and the technical means adopted by the present invention to achieve the above and other objects can be best understood by referring to the following detailed description of the preferred embodiments and the accompanying drawings, wherein
With reference to the drawings and in particular to
The antenna element 2 is electrically connected to an antenna signal feeding line 21 to electrically conduct the wireless signals between the antenna element 2 and the electronic device 1. The antenna element 2 further includes a signal-feeding end 22 and a terminal end 23, wherein the signal-feeding end 22 electrically connects the antenna signal feeding line 21. Besides, the radiation pattern adjustment element 3 is arranged at a position below the antenna element 2, and the radiation pattern adjustment element 3 is arranged in a direction parallel to an extended direction I of the antenna element 2.
As shown in
Please refer to
With reference to
The antenna element 2 is electrically connected to an antenna signal feeding line 21 to conduct the wireless signals between the electronic device 1 and the antenna element 2. Further, the antenna element 2 also includes a signal-feeding end 22 and a terminal end 23, wherein the signal-feeding end 22 electrically connects the antenna signal feeding line 21. Moreover, the radiation pattern adjustment elements 31 and 32 are arranged at positions beside the antenna element 2 and in a direction parallel to an extended direction I of the antenna element 2.
Please refer to
As shown in
Please refer to
In the embodiments of the present invention, the radiation pattern adjustment element could be either a magnetic material or a dielectric material with, respectively, a specific permeability or a specific dielectric constant. Besides, the choice of the magnetic material or the dielectric material could be determined by the corresponding frequencies of the wireless signals transceived by the antenna element. In addition, the coupling between the antenna pattern and the antenna signal feeding line could either be a direct wire-connection or an antenna coupling element (which the antenna signal feeding line is directly connected to the antenna coupling element, and the antenna pattern is coupled with the antenna coupling element.)
Since the radiation pattern adjustment elements 3, 3′, 31, and 32 of the antenna devices 2 and 2′ are mainly used to adjust the radiation patterns of the antenna elements, it is understood that any other type of radiation pattern adjustment element with any other figure, structure, magnetic characteristics, and electric characteristics can be used in the present invention to replace the radiation pattern adjustment elements 3, 3′, 31, and 32.
Follow the above statement, the present invention enables an antenna device and an electronic device equipped with the same to adjust the radiation pattern of an antenna element, which makes feasible the increase in gain of an omni-directional antenna, the increase in directionality of such antenna, and the improvement of the transceiving of wireless signals. In addition, the present invention not only alleviates the limitation in directionality of a directional antenna, but also increases the gain of such antenna in desired directions by further enhance the directionality of a directional antenna.
While the invention has been described in connection with what is presently considered to the most practical and preferred embodiments, it is to be understood that the invention is not to be limited to the disclosed embodiments, but on the contrary, is intended to cover various modifications and equivalent arrangement included within the spirit and scope of the appended claims.
Number | Date | Country | Kind |
---|---|---|---|
95108646 | Mar 2006 | TW | national |