CN206432391U - Dipole antenna and its communication equipment - Google Patents

Abstract

The utility model is related to a kind of dipole antenna and its communication equipment.A kind of dipole antenna includes feeding transmission line；Distributing point, the first short dot and the second short dot are disposed with feeding transmission line；First dipole antenna includes the first radiating element and the second radiating element；First radiating element is connected to distributing point；Second radiating element is connected to the first short dot；First radiating element and the second radiating element have different radiation directions；And it is connected to the second dipole antenna of the second short dot；While second dipole antenna is as three radiating element independently of the first dipole antenna, also as the reflecting surface of the first dipole antenna.Above-mentioned dipole antenna, the second dipole antenna namely is equivalent to as the reflecting surface of the first dipole antenna and increases a reflecting surface in the first dipole antenna side, thus improves dipole antenna gain.The dipole antenna configuration is simple, disclosure satisfy that the miniaturization demand of the communication equipments such as router.

Description

Dipole antenna and its communication equipment

Technical field

The utility model is related to antenna technical field, more particularly to a kind of dipole antenna and its communication equipment.

Background technology

As people constantly strengthen the integrated requirement of communication quality and communication equipment, various communication terminal devices are in society On popularity rate lifting speed it is very fast.Most convenient, most quick way are exactly wireless access way, and wireless access needs day Line.With the miniaturization of the communication equipments such as router, the antenna built in it is also required that to miniaturization.Traditional antenna While miniaturization is realized, its performance also can be reduced substantially therewith, so that communication use demand can not be met.

Utility model content

Based on this, it is necessary to provide dipole antenna and communication equipment a kind of simple in construction and with high-gain performance.

A kind of dipole antenna, including：Feeding transmission line；Distributing point, first are disposed with the feeding transmission line Short dot and the second short dot；First dipole antenna, including the first radiating element and the second radiating element；First radiation Unit is connected to the distributing point；Second radiating element is connected to first short dot；First radiating element and Second radiating element has different radiation directions；And second dipole antenna, it is connected to second short dot；Institute While the second dipole antenna is stated as three radiating element independently of first dipole antenna, also as described The reflecting surface of one dipole antenna.

In one of the embodiments, the total length of first radiating element and the distributing point and first short circuit The length sum between feeding transmission line between point is a quarter of default radiation wavelength to form the quarter-wave vast of heaven Line；Between feeding transmission line between the total length and the distributing point and first short dot of second radiating element Length sum is a quarter of default radiation wavelength to form quarter-wave aerial；Second dipole antenna is two / mono- wavelength antennas.

In one of the embodiments, second radiating element includes the first oscillator and the second oscillator；Described first shakes Substantially symmetrical about its central axis setting of sub and described second oscillator along first radiating element；One end of first oscillator and described One end of two oscillators is commonly connected to first short dot；First oscillator and second oscillator formation are open to described Second dipole antenna and in flaring shape horn structure.

In one of the embodiments, the feeding transmission line between the distributing point and first short dot is used as first Impedance matching section.

In one of the embodiments, the feeding transmission line conduct between first short dot and second short dot Second impedance matching section.

In one of the embodiments, the feeding transmission line is coaxial cable, and the coaxial cable is additionally operable to and radio frequency Signal source is connected.

In one of the embodiments, second dipole antenna is rectangular radiation patch.

In one of the embodiments, first radiating element is opposite with the radiation direction of second radiating element.

In one of the embodiments, the dipole antenna is PCB antenna.

A kind of communication equipment, including radio-frequency signal source, in addition to the dipole antenna described in any of the above-described embodiment；Institute State radio-frequency signal source to be connected with the feeding transmission line, for providing radiofrequency signal to the dipole antenna.

Above-mentioned dipole antenna, including the first dipole antenna and the second dipole antenna.First dipole antenna includes The first radiating element and the second radiating element with different radiation directions.Second dipole antenna is used as the first dipole antenna Reflecting surface, namely be equivalent to the first dipole antenna side increase a reflecting surface, thus improve dipole antenna increasing Benefit.The dipole antenna configuration is simple, disclosure satisfy that the miniaturization demand of the communication equipments such as router.

Brief description of the drawings

Fig. 1 be an embodiment in dipole antenna structural representation；

Fig. 2 moves towards schematic diagram for the circuit of the dipole antenna in Fig. 1；

Fig. 3 is antenna radiation pattern of traditional dipole antenna under CST simulation softwares；

Antenna radiation patterns of the Fig. 4 for the dipole antenna in Fig. 1 under CST simulation softwares.

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only to explain The utility model, is not used to limit the utility model.

Fig. 1 be an embodiment in dipole antenna structural representation.As shown in figure 1, the dipole antenna includes feedback Electric transmission line 100, the first dipole antenna 200 and the second dipole antenna 300.

Feeding transmission line 100 is coaxial cable.Feeding transmission line 100 is provided with distributing point 101, the and of the first short dot 103 Second short dot 105.First dipole antenna 200 includes the first radiating element 201 and the second radiating element 203.First radiation Unit 201 is connected with the distributing point 101 of feeding transmission line 100.Second radiating element 203 and first on feeding transmission line 100 Short dot 103 is connected.Second dipole antenna 300 is connected with the second short dot 105 of feeding transmission line 100.In the present embodiment In, the feeding transmission line 100 between the short dot 103 of distributing point 101 and first is the first impedance matching section 107.First short dot 103 and the second feeding transmission line 100 between short dot 105 be the second impedance matching section 109.Coaxial cable is same using 50 ohm Shaft cable line, namely the first impedance matching section 107 and the second impedance matching section 109 constitute 50 ohms impedance match section, to carry High antenna performance.

The length sum of the total length of first radiating element 201 and the first impedance matching section 107 is default radiation wavelength A quarter, to form quarter-wave aerial.The total length of second radiating element 203 and the first impedance matching section 107 Length sum is a quarter of default radiation wavelength, to form quarter-wave aerial.First radiating element 201 and second Radiating element 203 has different radiation directions.In the present embodiment, the first radiating element 201 and the second radiating element 203 Radiation direction is opposite.

Second dipole antenna 300 includes the 3rd radiating element 301.3rd radiating element 301 is 1/2nd wavelength day Line.3rd radiating element 301 is connected with the second short dot 105 of feeding transmission line 100.3rd radiating element 301 be independently of The radiating element of first dipole antenna 200, and the 3rd radiating element 301 is used as the reflecting surface of the first dipole antenna 200. Specifically, reflecting surface of the 3rd radiating element 301 as the second radiating element 203, enters to the radiated wave of the second radiating element 203 Row reflection, to cause the radiated wave of the second radiating element 203 identical with the radiation direction of the radiated wave of the first radiating element 201, So that the radiated wave of the radiated wave of the second radiating element 203 and the first radiating element 201 is overlapped, and then improve this The radiation gain performance of dipole antenna.In one embodiment, the second dipole antenna 300 is rectangular radiation patch.

Above-mentioned dipole antenna, including the first dipole antenna 200 and the second dipole antenna 300.First dipole day Line 200 includes the first radiating element 201 and the second radiating element 203 with different radiation directions.Second dipole antenna 300 As the reflecting surface of the first dipole antenna 200, namely it is equivalent in one reflection of the side of the first dipole antenna 200 increase Face, thus improve dipole antenna gain.The dipole antenna configuration is simple, disclosure satisfy that the small of the communication equipments such as router Type growth requirement.

In one embodiment, the second radiating element 203 includes the first oscillator 2031 and the second oscillator 2032.First oscillator 2031 and second substantially symmetrical about its central axis setting of the oscillator 2032 along the first radiating element 201.One end and second of first oscillator 2031 One end of oscillator 2032 is commonly connected to the first short dot 103.First oscillator 2031 and the second oscillator 2032 formation opening are to the Two dipole antennas 200 and in flaring shape horn structure, can also be referred to as " eight " word structure.First oscillator 2031 and The opening angle of two oscillators 2032 formation is adjusted according to actual application environment, to increase swept area.The dipole day The relative bandwidth of line can reach 22%.

In other embodiments, can also be by adjusting between the second radiating element 203 and the 3rd radiating element 301 simultaneously Distance and the first oscillator 2031 and the second oscillator 2032 in the second radiating element 203 between opening angle adjust idol The performance of pole sub-antenna, so that the dipole antenna adapts to a variety of application environments and best performance.

Fig. 2 moves towards schematic diagram for the circuit of the dipole antenna in Fig. 1.Arrow in Fig. 2 represents that the electric current in antenna is walked To direction.As shown in Fig. 2 the current direction of the first radiating element 201 and the second radiating element 203 is on the contrary, so as to the first radiation The radiated wave of the radiating element 203 of unit 201 and second is reverse.The current direction and the first radiating element of 3rd radiating element 301 201 current direction is on the contrary, that is to say the radiated wave of the 3rd radiating element 301 and the radiated wave direction of the first radiating element 201 Conversely.3rd radiating element 301 is carried out as the reflecting surface of the second radiating element 203 to the radiated wave of the second radiating element 203 Reflection, to cause the radiated wave direction of the second radiating element 203 identical with the radiated wave direction of the first radiating element 201, so that So that the radiated wave of the second radiating element 203 is superimposed with the radiated wave of the first radiating element 201, and then improve the incremental of antenna Energy.

Fig. 3 is antenna radiation pattern of traditional dipole antenna under CST simulation softwares.As shown in figure 3, traditional dipole Sub-antenna is to be shaken molecular antenna by identical quarter-wave up and down, and the maximum of its theoretical gain is 2.38dBi.My god The directional diagram gray value of line is corresponding with the yield value of antenna.The gain of the antenna centered on gain maximum point, to surrounding by Gradually reduce.Antenna radiation patterns of the Fig. 4 for the dipole antenna in Fig. 1 under CST simulation softwares.As shown in figure 4, the dipole day The gain maximum of line is more than 3.8dBi.The directional diagram gray value of antenna is corresponding with the yield value of antenna.The gain of the antenna Centered on gain maximum point, gradually reduced to surrounding.Pass through comparison diagram 3 and Fig. 4 simulation result figure, it is known that of the invention The high gain of the traditional dipole antenna of the ratio of gains of dipole antenna.

A kind of communication equipment, including radio-frequency signal source.Also include the dipole antenna described in any of the above-described embodiment.Penetrate Frequency source signal is connected with feeding transmission line 10, for providing radiofrequency signal to dipole antenna.In the present embodiment, the communication is set Standby is router.In other embodiments, the communication equipment can also be mobile phone, computer etc..

Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, the scope of this specification record is all considered to be.

Embodiment described above only expresses several embodiments of the present utility model, and it describes more specific and detailed, But therefore it can not be interpreted as the limitation to utility model patent scope.It should be pointed out that for the common skill of this area For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to Protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (10)

1. a kind of dipole antenna, it is characterised in that including：

Feeding transmission line；Distributing point, the first short dot and the second short dot are disposed with the feeding transmission line；

First dipole antenna, including the first radiating element and the second radiating element；First radiating element is connected to described Distributing point；Second radiating element is connected to first short dot；First radiating element and second radiation are single Member has different radiation directions；And

Second dipole antenna, is connected to second short dot；Second dipole antenna is as independently of described first While three radiating element of dipole antenna, also as the reflecting surface of first dipole antenna.

2. dipole antenna according to claim 1, it is characterised in that the total length of first radiating element with it is described The length sum between feeding transmission line between distributing point and first short dot is a quarter of default radiation wavelength To form quarter-wave aerial；The total length of second radiating element and the distributing point and first short dot it Between feeding transmission line between length sum be a quarter of default radiation wavelength to form quarter-wave aerial；Institute The second dipole antenna is stated for 1/2nd wavelength antennas.

3. dipole antenna according to claim 1, it is characterised in that second radiating element include the first oscillator and Second oscillator；The setting substantially symmetrical about its central axis of first oscillator and second oscillator along first radiating element；Described One end of one oscillator and one end of second oscillator are commonly connected to first short dot；First oscillator and described Two oscillators form the horn structure that is to second dipole antenna and being in flaring shape that is open.

4. dipole antenna according to claim 1, it is characterised in that between the distributing point and first short dot Feeding transmission line be used as the first impedance matching section.

5. dipole antenna according to claim 1, it is characterised in that first short dot and second short dot Between feeding transmission line be used as the second impedance matching section.

6. dipole antenna according to claim 1, it is characterised in that the feeding transmission line is coaxial cable, described Coaxial cable is additionally operable to be connected with radio-frequency signal source.

7. dipole antenna according to claim 1, it is characterised in that second dipole antenna is rectangular radiation Piece.

8. dipole antenna according to claim 1, it is characterised in that first radiating element and the described second radiation The radiation direction of unit is opposite.

9. dipole antenna according to claim 1, it is characterised in that the dipole antenna is PCB antenna.

10. a kind of communication equipment, including radio-frequency signal source, it is characterised in that also including any one of the claims 1-9 institutes The dipole antenna stated；The radio-frequency signal source is connected with the feeding transmission line, is penetrated for being provided to the dipole antenna Frequency signal.