The present invention relates to a dipole antenna comprising an elongate substrate and a first and conductive pieces on the substrate, wherein the first conductive piece includes a part cooperating with a corresponding part of the second conductive piece for controlling a current resonant path in a 5 GHz frequency band and another part cooperating with another corresponding part of the second conductive piece for controlling a current resonant path in a 2.4 GHz frequency band to achieve a good antenna efficiency for a small size antenna.
With the evolving technology in wireless communications, the modern electronic products are able to communicate wirelessly through the Wi-Fi technology. A wireless communication device or system transmits and receives wireless waves via an antenna to deliver or exchange wireless signals as well as to access wireless networks. The communication system of a wireless local network is in generally divided into a plurality of frequency bands and therefore an antenna complying with operation of multiple frequency bands becomes more demanded. Besides, the trend of the antenna dimensions is getting smaller in order to adapt to smaller dimensions of electronic products.
A dipole antenna comprises: an elongate substrate; a first conductive piece on the substrate, the first conductive piece including a main part, a straight part extending from one end of the main part along a lengthwise direction of the elongate substrate, and a bent part extending from and located at a lateral side of the main part, a free end of the straight part defining a feeding point, the main part being adapted for controlling a current resonant path in a 5 GHz frequency band while the bent part being adapted for controlling a current resonant path in a 2.4 GHz frequency band; a second conductive piece on the substrate and separated from the first conductive piece, the second conductive piece including a bent portion, two U-shaped portions, and a ground portion connected between the bent portion and the two U-shaped portions; and a third conductive piece on the substrate and separated from the first conductive piece and the second conductive piece; wherein the main part of the first conductive piece includes a connecting portion connected to the straight part, a meander portion connected at one end thereof to the connecting portion, and an end portion connected to an opposite end of the meander portion; and the straight part of the first conductive piece is disposed between the two U-shaped portions of the second conductive piece.
Referring to
The case 10 has an upper case part 101 and a lower case part 102 together defining a receiving chamber 103 for accommodating the substrate 20.
As shown in
The second conductive piece 2 including a bent portion 21, two U-shaped portions 22, and a ground portion 23 connected between the bent portion 21 and the two U-shaped portions 22. The U-shaped portion 22 has two 90 degree bends. The two U-shaped portions 22 of the second conductive piece 2 are arranged in mirror image symmetry relative to the straight part 12 of the first conductive piece 1. A space is formed between the U-shaped portions 22 and the ground portion 23 and the straight part 12 of the first conductive piece 1 is disposed in the space. The U-shaped portions 22 are adapted for controlling a current resonant path in a 5 GHz frequency band while the bent portion 21 is adapted for controlling a current resonant path in a 2.4 GHz frequency band.
The third conductive piece 3 is substantially U-shaped. The bent portion 21 of the second conductive piece 2 is L-shaped with 90 degrees bend and is disposed beside the third conductive piece 3. The third conductive piece 3 is located near the connector part 30.
The antenna module 100 is operable essentially as a dual band dipole in 2.4 GHz and 5 GHz frequency bands, wherein antenna gain is greater than 2.84 dBi in 2.4 to 2.5 GHz frequency band and greater than 3.83 dBi in 5.15 to 5.85 GHz frequency band, as shown in Table 1 which is an antenna characteristics table. In Table 1, it can be seen that antenna gain increases at high frequency band. With reference to
To obtain a dipole antenna of high gain, the first conductive piece 1 has the main part 11, the straight part 12, and the bent part 13 while the second conductive piece 2 has the bent portion 21 and the two U-shaped portions 22, wherein the main part 11 and the two U-shaped portions 22 control current path in 5 GHz frequency band while the bent part 13 and the bent portion 21 control current path in 2.4 GHz frequency band.
Number | Date | Country | Kind |
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202010702457.2 | Jul 2020 | CN | national |
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