CN205141133U - Dual -frenquency omnidirectional antenna who uses at wireless LAN - Google Patents

Abstract

The utility model discloses a dual -frenquency omnidirectional antenna who uses at wireless LAN, including the PCB board, the front of this PCB board is covered copper and is formed with a radiating element, the 2nd radiating element, transmission line and balancedunbalanced converter, and a radiating element is the radiating element of 2.4GHz frequency channel resonance, and the 2nd radiating element is the radiating element of 5.0GHz frequency channel resonance, and the middle part and the ranging back of transmission line are connected to this balancedunbalanced converter, and the bottom center of balancedunbalanced converter is formed with the distributing point, the back of this PCB board is covered copper and is formed with ground plane and two impedance match lines, is provided with heavy copper hole on the PCB board, heavy copper hole turn -on connection in the ground connection at the front and the back of PCB board. The limitation of the single frequency channel of traditional omnidirectional antenna radiation has been broken through to this product, has solved the difficult processing of traditional dual -frenquency antenna, difficult debugging, with high costs, shortcoming that the performance is poor, has realized the omnidirectional radiation of multifrequency section, this product has characteristics such as low cost, simple manufacture, easy large -scale production.

Description

A kind of double-frequency omnidirectional antenna being applied in WLAN (wireless local area network)

Technical field

The utility model relates to field of antenna technology, refers in particular to a kind of double-frequency omnidirectional antenna being applied in WLAN (wireless local area network).

Background technology

The existing technology for internet wireless access mainly contains two kinds, that is: Wi-Fi (WirelessFidelity, Wireless Fidelity) and Wi-max (WorldwideInteroperabilityforMicrowaveAccess, global general-use microwave communication techniques).Its groundwork frequency range all concentrates on 2.4GHz frequency range (2400 ~ 2485MHz) and 5.8GHz frequency range (5151 ~ 5850MHz).The double-frequency omnidirectional antenna major part of existing WLAN (wireless local area network) adopts the antenna of two width different frequencies to be contained in an antenna shell, such structure certainly will cause that volume is large, cost is high, debugging is difficult, be not suitable for batch production and easily produce interference between two width antennas, the weak effect that product uses; Small part dual-band antenna, owing to not can solve the problem of low standing wave and good directivity, is difficult to meet the application of WLAN terminal device in wireless network covers.

Utility model content

In view of this, the utility model is for the disappearance of prior art existence, its main purpose is to provide a kind of double-frequency omnidirectional antenna being applied in WLAN (wireless local area network), it can solve the problem of low standing wave and good directivity, is difficult to meet the application of WLAN terminal device in wireless network covers.

For achieving the above object, the utility model adopts following technical scheme:

A kind of double-frequency omnidirectional antenna being applied in WLAN (wireless local area network), include pcb board, the front of this pcb board is covered copper and is formed with the first radiating doublet, second radiating doublet, transmission line and balun, first radiating doublet is the radiating doublet of 2.4GHz frequency band resonance, second radiating doublet is the radiating doublet of 5.0GHz frequency band resonance, first radiating doublet and the second radiating doublet lay respectively at the left and right sides in the front of pcb board and front-back staggered is arranged, this transmission line connects between the rear end of the first radiating doublet and the rear end of the second radiating doublet, this balun connects the middle part of transmission line and extends back, the bottom centre of balun is formed with distributing point, the back side of this pcb board is covered copper and is formed with ground plane and two impedance matching lines, and two impedance matching lines connect ground plane and are symmetrical arranged centered by balun respectively, and this pcb board is provided with heavy copper hole, heavy copper hole conducting is connected to the ground connection of the front and back of pcb board.

As a kind of preferred version, described pcb board is constant low-loss high frequency pcb board.

As a kind of preferred version, the thickness of described pcb board is 1.5mm.

As a kind of preferred version, described first radiating doublet is S bent shapes.

As a kind of preferred version, described second radiating doublet is the cup type shape having tapering.

As a kind of preferred version, described heavy copper hole is multiple, and multiple heavy copper hole is that four rows and four columns interval is arranged.

As a kind of preferred version, described ground plane is rectangle, and ground plane covers the back side of the rear end of pcb board.

The utility model compared with prior art has obvious advantage and beneficial effect, specifically, as shown from the above technical solution:

This product breaches the limitation of conventional omni-directional antenna single frequency band radiation, solves traditional dual-band antenna difficulty processing, difficulty is debugged, cost is high, the shortcoming of poor performance, achieves the omnidirectional radiation of multiband; This product have with low cost, make simple, be easy to the features such as large-scale production; Only need one man operation during welding, just can settle at one go, make the efficiency of welding operation high, greatly increase production efficiency, also improve the quality of product simultaneously; And product two-band covers, and compensate for the deficiency that antenna frequency band of the same type is narrow, the demand that the multiple communications bands meeting telecom equipment vendor cover; In addition, this small product size is little, lightweight, loss is little, impedance matching is good, standing-wave ratio is low, decreases debug time, improves production efficiency.

For more clearly setting forth architectural feature of the present utility model and effect, below in conjunction with accompanying drawing and specific embodiment, the utility model is described in detail:

Accompanying drawing explanation

Fig. 1 is that the structure of the preferred embodiment of the utility model is always schemed;

Fig. 2 is the Facad structure figure of the preferred embodiment of the utility model;

Fig. 3 is the structure figure of the preferred embodiment of the utility model;

Fig. 4 is the size table diagram of the preferred embodiment of the utility model;

Fig. 5 is the horizontal radiation pattern (2450MHz) of the preferred embodiment of the utility model;

Fig. 6 is the horizontal radiation pattern (5500MHz) of the preferred embodiment test of the utility model;

Fig. 7 is the elevation radiation patytern (2450MHz) of the preferred embodiment test of the utility model;

Fig. 8 is the elevation radiation patytern (5500MHz) of the preferred embodiment test of the utility model;

Fig. 9 is the standing wave pattern of the preferred embodiment test of the utility model.

Accompanying drawing identifier declaration:

10, pcb board 21, first radiating doublet

22, the second radiating doublet 23, transmission line

24, balun 31, ground plane

32, impedance matching line 33, heavy copper hole

Embodiment

Please refer to shown in Fig. 1 to Fig. 3, that show the concrete structure of the preferred embodiment of the utility model, include pcb board 10.

This pcb board 10 is constant low-loss high frequency pcb board, and the thickness of described pcb board 10 is 1.5mm.

As depicted in figs. 1 and 2, the front of this pcb board 10 is covered copper and is formed with the first radiating doublet 21, second radiating doublet 22, transmission line 23 and balun 24, first radiating doublet 21 is the radiating doublet of 2.4GHz frequency band resonance, this first radiating doublet 21 is S bent shapes, to reduce the height dimension of the first radiating doublet 21, and perfect electrical performance indexes is reached in limited space and volume, also can increase bandwidth simultaneously, in the coupling of impedance, also serve the effect of coupled resonance, this the second radiating doublet 22 is the radiating doublet of 5.0GHz frequency band resonance, and this second radiating doublet 22 is for there being the cup type shape of tapering, so, utilize the design principle of conical antenna to design the bandwidth that this antenna can expand this frequency band greatly, thus realize the broadband properties of high band, this first radiating doublet 21 and the second radiating doublet 22 lay respectively at the left and right sides in the front of pcb board 10 and front-back staggered is arranged, this transmission line 23 connects between the rear end of the first radiating doublet 21 and the rear end of the second radiating doublet 22, this balun 24 connects the middle part of transmission line 23 and extends back, the bottom centre of balun 24 is formed with distributing point (not shown), so, the distributing point of antenna is not the centre feed at transmission line 23, but at bottom centre's feed of balun 24, feed place adopts this balun 24, both bandwidth can be increased, in the coupling of impedance, also serve the effect of coupled resonance simultaneously, the imbalance of electric current is made to become balance, form broadband, the characteristic of low standing wave, thus reach the conjugate impedance match of antenna impedance.

As shown in figures 1 and 3, the back side of this pcb board 10 is covered copper and is formed with ground plane 31 and two impedance matching lines 32, this ground plane 31 is rectangle, ground plane 31 covers the back side of the rear end of pcb board 10, and two impedance matching lines 32 connect ground plane 31 and are symmetrical arranged centered by balun 24 respectively; And this pcb board 10 is provided with heavy copper hole 33, and heavy copper hole 33 conducting is connected to the ground connection of the front and back of pcb board 10, and in the present embodiment, this heavy copper hole 33 is multiple, multiple heavy copper hole 33 is arranged in four rows and four columns interval.Heavy copper hole 33 makes the earth-continuity of the front and back of pcb board 10, also be the place with the welding of coaxial cable outer conductor ground connection simultaneously, the size of ground plane 31 directly affects inductance on pcb board 10 and the distribution of electric capacity on antenna, can adjust the optimum size of ground plane according to impedance matching; The impedance matching of two impedance matching lines, 32 pairs of 2.4GHz and 5.0GHz frequency ranges can play the effect of resonance coupling.

Following list is the dimensional drawing of pcb board, and unit is mm, as shown in Figure 4:

L1	3.2	W1	17.4	L5	14.6	W5	7.5	L9	8.1
										L2	3.2	W2	5.3	L6	3.2	W6	3.5	L10	15.2
L3	9.4	W3	9	L7	26.3	W7	43.2
										L4	12.5	W4	32.4	L8	13.5

The utility model is via the repeatedly amendment of AnsoftHFSS simulation calculation to sample, performance adjustment and perfect, finally by the detection validation of instrument, achieve the resonance having double frequency inside common antenna, as shown in Figure 9, frequency range can from 2400-2500/5150-5850MHz, standing-wave ratio is less than 1.7, horizontal radiation pattern and the elevation radiation patytern of antenna are normal, and the horizontal radiation pattern deviation in roundness of antenna is within ± 1dB, as shown in Figures 5 to 9, performance index are obviously better than like product, meet the demand simultaneously covering two communications bands at wireless lan network, improve the competitiveness of product in market, prove that this antenna is truly feasible.

The above, it is only preferred embodiment of the present utility model, not technical scope of the present utility model is imposed any restrictions, therefore every above embodiment is done according to technical spirit of the present utility model any trickle amendment, equivalent variations and modification, all still belong in the scope of technical solutions of the utility model.

Claims (7)

1. one kind is applied in the double-frequency omnidirectional antenna of WLAN (wireless local area network), it is characterized in that: include pcb board, the front of this pcb board is covered copper and is formed with the first radiating doublet, second radiating doublet, transmission line and balun, first radiating doublet is the radiating doublet of 2.4GHz frequency band resonance, second radiating doublet is the radiating doublet of 5.0GHz frequency band resonance, first radiating doublet and the second radiating doublet lay respectively at the left and right sides in the front of pcb board and front-back staggered is arranged, this transmission line connects between the rear end of the first radiating doublet and the rear end of the second radiating doublet, this balun connects the middle part of transmission line and extends back, the bottom centre of balun is formed with distributing point, the back side of this pcb board is covered copper and is formed with ground plane and two impedance matching lines, and two impedance matching lines connect ground plane and are symmetrical arranged centered by balun respectively, and this pcb board is provided with heavy copper hole, heavy copper hole conducting is connected to the ground connection of the front and back of pcb board.

2. a kind of double-frequency omnidirectional antenna being applied in WLAN (wireless local area network) according to claim 1, is characterized in that: described pcb board is constant low-loss high frequency pcb board.

3. a kind of double-frequency omnidirectional antenna being applied in WLAN (wireless local area network) according to claim 1, is characterized in that: the thickness of described pcb board is 1.5mm.

4. a kind of double-frequency omnidirectional antenna being applied in WLAN (wireless local area network) according to claim 1, is characterized in that: described first radiating doublet is S bent shapes.

5. a kind of double-frequency omnidirectional antenna being applied in WLAN (wireless local area network) according to claim 1, is characterized in that: described second radiating doublet is the cup type shape having tapering.

6. a kind of double-frequency omnidirectional antenna being applied in WLAN (wireless local area network) according to claim 1, is characterized in that: described heavy copper hole is multiple, and multiple heavy copper hole is that four rows and four columns interval is arranged.

7. a kind of double-frequency omnidirectional antenna being applied in WLAN (wireless local area network) according to claim 1, is characterized in that: described ground plane is rectangle, and ground plane covers the back side of the rear end of pcb board.