1. Field of the Invention
The present invention relates to an electronic device, and more particularly, to a foldable electronic device.
2. Description of the Prior Art
With rapid development in digital technologies, all kinds of portable and moveable electronic devices play more and more important roles in people's lives. Nowadays all kinds of electronic devices pursuit not only short, light characteristics but also metal appearance designing, and thus it is a common goal to design a foldable electronic device which is portable and has a metal housing. One most obvious example is an all-metal superstructure ultrabook in the conventional market.
The antenna of a conventional foldable electronic device is mostly deployed at the edge of the superstructure of the folding electronic device. However, in the foldable electronic device with all-metal superstructure, due to shielding effect generated by the metal superstructure, power of electromagnetic waves is attenuated and antenna efficiency decreases. Therefore, the conventional antenna configuration method is not easy to be realized. Besides, since the space of the foldable electronic device is limited for pursuing light and thin, antennas more than or equal to 2 with various functions are not easy to be disposed in for transmitting or receiving signals of various communication systems, such as local area network (LAN) and mobile communication system.
Therefore, in order to further develop the foldable electronic device, the aforementioned problems need to be improved or resolved.
It is therefore an objective of the present invention to provide a foldable electronic device capable of disposing up to at least one antenna set, in which the at least one antenna set is used to receive or transmit various signals.
An embodiment of the present invention discloses a foldable electronic device includes a flat panel display, a base and at least one antenna set. The flat panel display has a metal housing. The base has a pivot side, and the metal housing is pivoted to the pivot side. The antenna set is disposed in the base, and each antenna set has a main antenna and at least one auxiliary antenna, in which the main antenna and the auxiliary antenna are staggered.
The embodiment of the present invention further discloses that at least one antenna set has a first antenna set and a second antenna set, in which the first and the second antenna sets are used to receive or transmit signals of various communication systems.
Another embodiment of the present invention discloses a base which further includes a first and a second carrier and a slot, wherein the slot is located at the pivot side of the base, the first and the second carriers separately disposed in the slot, the first carrier more nearing to the pivot side than the second carrier, and the main and the auxiliary antennas of the first and the second antenna sets are staggered and disposed on the first and the second carriers.
Further another embodiment of the present invention discloses that main antennas of a first and a second antenna set are disposed on a first side of a base, and auxiliary antennas of the first and the second antenna sets are disposed on a second side of the base; wherein the first and the second sides are neighbor to the pivot side, and the first and the second sides are opposite to each other.
Further another embodiment of the present invention discloses a base which further includes a carrier and a slot, wherein the slot is located at the pivot side of the base, the carrier disposed in the slot having a first and a second plane opposite to each other, and the main and the auxiliary antennas of the first and the second antenna sets are staggered and disposed on the first and the second planes of the carrier.
These and other objectives of the present invention will no doubt become obvious to those of ordinary skill in the art after reading the following detailed description of the preferred embodiment that is illustrated in the various figures and drawings.
The followings interpret the concept of the present invention according to the figures and detailed description. Those skilled in the art may make alterations or modifications according to the concept of the present invention. Such alterations and modifications shall be within the spirit and scope of the present invention.
A foldable electronic device disclosed in the embodiments of the present invention is to dispose at least one or two antenna sets in a base due to the limitations of all-metal superstructure and maintain the performance of the antenna sets by setting or arrangement method of the antenna sets.
The first and the second antenna sets 130, 140 are separately used to receive or transmit signals of various communication systems, such as wideband code division multiple access (WCDMA), global system for mobile communications (GSM), high speed downlink packet access (HSDPA), WiFi, etc. In the first embodiment, the first antenna set 130 can be a wireless local area network (WLAN) antenna supporting communication protocols such as 802.11a, 802.11b, 802.11g, etc., while the second antenna set 140 can be a mobile communication network antenna supporting communication systems using WCDMA and HSDPA.
The main and the auxiliary antennas 132, 134, 142, 144 of the first and the second antenna sets 130, 140 may be coupling antennas, planar inverted-F antennas, etc., which may be composed of common iron, copper foil, laser direct structuring (LDS) or coating conductive liquid and/or paint combined with via technology.
In the first embodiment, the base 120 further includes a first carrier 170, a second carrier 172 and a slot 180. The slot 180 is located at a pivot side 160 of the base 120, and the first carrier 170 and the second carrier 172 are separately disposed in the slot 180. The first carrier 170 is more nearing to the pivot side 160 than the second carrier 172, i.e. the first carrier 170 is more away from the center of the base 120 than the second carrier 172. The first and the second carriers 170, 172 are used to stagger and carry the main and the auxiliary antennas 132, 134, 142, 144 of the first and the second antenna sets 130, 140, and the types and the positions of disposition of the first and the second carriers 170, 172 can be adjusted according to requirements. For example, the first carrier 170 can be two sheets disposed in the slot 180 and substantially parallel to the pivot side 160, and the second carrier 172 can be an L-type long board (as shown in
Since the main and the auxiliary antennas of the same antenna set are used to receive or transmit signals in the same frequency band, the main and the auxiliary antennas of the same antenna set can be disposed on different carriers or planes, to avoid interfering with each other. As shown in
The same antenna set is used to receive or transmit signals of the same communication system, and thus tends to interfere with each other in the same frequency band. For example, the first antenna set 130 can support UMT-2100 system, and the auxiliary antenna 134 of the first antenna set 130 may be interfered with transmission signals when the main antenna 132 of the first antenna set 130 transmits the transmission signals at the operating frequency band 1710-2170 MHz of the communication system, causing decrease of receiving efficiency in the operating frequency band. However, by utilizing the method described in the first embodiment, the main and the auxiliary antennas interfere with each other using the same operating frequency band can be reduced by staggering the main antenna 132 and the auxiliary antenna 134 of the first antenna set 130 on different planes and as far away from each other as possible and staggering the main antenna 142 and the auxiliary antenna 144 of the second antenna set 140 on different planes and as far away from each other as possible as well.
In the first embodiment, the base 120 has a keyboard 122 and a host 124, where the keyboard 122 is disposed on the host 124.
As mentioned above, in the first embodiment, the main and the auxiliary antennas 132, 134, 142, 144 of the first and the second antenna sets 130, 140 are staggered and disposed by utilizing the first and the second carriers 170, 172, and metal shielding effect is increased by utilizing the metal housing 150, to respectively reduce and block the interferences between the antennas on different carriers, such that the first and the second antenna sets can effectively receive or transmit signals.
Taking WCDMA utilizing UMTS-2100 system for example, of which the operating frequency band is 1710-2170 MHz. Therefore, as shown in Table 1, Table 2,
In a WLAN environment, the operating frequency band of the communication protocol 802.11a is 5150-5850 MHz, while the operating frequency band of the communication protocols 802.11b and 802.11g is 2400-2483.5 MHz. Therefore, as shown in Table 3, Table 4,
In the second embodiment, the base 320 further has a first side 362 and a second side 364. The first and the second sides 362, 364 are neighbor to the pivot side 360, and the first and the second sides 362, 364 are opposite to each other. As mentioned above, the interference between the main and the auxiliary antennas of the same antenna set can be reduced by disposing the main and the auxiliary antennas of the same antenna set on different planes. Therefore, in the second embodiment, the main antennas 332, 342 of the first and the second antenna sets 330, 340 can be disposed on the first side 362 of the base 320, and the auxiliary antennas 334, 344 of the first and the second antenna sets 330, 340 can be disposed on the second side 364 of the base 320. Similarly, the disposition method, of which the main antenna 332 of the first antenna set 330 and the auxiliary antenna 344 of the second antenna set 340 can be disposed on the first side 362 of the base 320, and the auxiliary antenna 334 of the first antenna set 330 and the main antenna 342 of the second antenna set 340 can be disposed on the second side 364 of the base 320, can be derived according to the spirit of aforementioned disposing the main and the auxiliary antennas of the same antenna set on different planes. Note that, the first side 362 mentioned above can be any side neighbor to the pivot side 360, which is not limited to that shown in
Besides, in the second embodiment, since the flat panel display 310, which is lifted up or stands, is not between the main and the auxiliary antennas 332, 334 of the first antenna set 330 and the main and the auxiliary antennas 342, 344 of the second antenna set 340, the position of the metal housing 350 of the flat panel display 310 does not affect antenna performance.
In the third embodiment, the base 420 includes a slot 480 and a carrier 490. The carrier 490 is located in the slot 480, which has a first plane 492 and a second plane 494 opposite to each other, and the slot 480 is located at the pivot side 460 of the base 420. As mentioned above, the interference between the main and the auxiliary antennas of the same antenna set can be reduced by disposing the main and the auxiliary antennas of the same antenna set on different planes. Therefore, in the third embodiment, the main antennas 432, 442 of the first and the second antenna sets 430, 440 can be disposed on the first plane 492, and the auxiliary antennas 434, 444 of the first and the second antenna sets 430, 440 can be disposed on the second plane 494. Similarly, the disposition method, of which the main antenna 432 of the first antenna set 430 and the auxiliary antenna 444 of the second antenna set 440 can be disposed on the first plane 492, and the auxiliary antenna 434 of the first antenna set 430 and the main antenna 442 of the second antenna set 440 can be disposed on the second plane 494, can be derived according to the spirit of aforementioned disposing the main and the auxiliary antennas of the same antenna set on different planes. Note that, the first plane 492 mentioned above can be a plane of the carrier 490 more nearing to or far away from the center of the base 420, and the second plane 494 and the first plane 492 are opposite to each other. In the present embodiment, the carrier 490 is a flat panel carrier. Besides, the carrier 490 is not limited to the appearance shown in
Similarly, in the third embodiment, if the flat panel display 410, which is lifted up or stands, is not between the main and the auxiliary antennas 432, 434 of the first antenna set 430 and the main and the auxiliary antennas 442, 444 of the second antenna set 440, the position of the metal housing 450 of the flat panel display 410 does not affect the antenna performance. Otherwise, the metal housing 450 can be used as metal shielding for reducing the interference between the main and the auxiliary antennas 432, 434 or 442, 444 of the same antenna set.
To sum up, by applying the technology characteristics of the present invention that the antennas are disposed on the base of the foldable electronic device, not only the problem of poor antenna performance caused by disposing the antennas on the metal superstructure can be improved but also the space of the base for disposing at least two antenna sets for simultaneously receiving signals of the various communication systems is properly used. Besides, by using the disposition method of the main and the auxiliary antennas staggered and disposed on different planes, the interference between the main and the auxiliary antennas of the same antenna set can be further reduced and the antenna efficiency can be maintained, so as to enhance the communication capacity of the foldable electronic device.
Those skilled in the art will readily observe that numerous modifications and alterations of the device and method may be made while retaining the teachings of the invention. Accordingly, the above disclosure should be construed as limited only by the metes and bounds of the appended claims.
Number | Date | Country | Kind |
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101205344 | Mar 2012 | TW | national |