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CN102208717A - Planar dual-direction radiating antenna - Google Patents

Planar dual-direction radiating antenna Download PDF

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Publication number
CN102208717A
CN102208717A CN2010101577874A CN201010157787A CN102208717A CN 102208717 A CN102208717 A CN 102208717A CN 2010101577874 A CN2010101577874 A CN 2010101577874A CN 201010157787 A CN201010157787 A CN 201010157787A CN 102208717 A CN102208717 A CN 102208717A
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China
Prior art keywords
reflecting element
substrate
groove
covering part
plane
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Granted
Application number
CN2010101577874A
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Chinese (zh)
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CN102208717B (en
Inventor
黄奂衢
陈建廷
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HTC Corp
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High Tech Computer Corp
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Abstract

The invention provides a planar dual-direction radiating antenna, comprising a substrate, a first reflection component, an antenna body, a second reflection component and a third reflection component, wherein the first reflection component is arranged on a first surface of the substrate and top edges of the first reflection component are depressed inwards so as to form a first groove on the first surface; the antenna body is arranged in the first groove and is symmetrical to the first reflection component in a preset direction; the second reflection component is arranged on a second surface of the substrate and top edges of the second reflection component are depressed inwards so as to form a second groove on the second surface; the first groove and the second groove are arranged correspondingly on a vertical projection plane; and the third reflection component is arranged on the first surface and the second surface of the substrate and opposite to the antenna body in the preset direction as well as covers an opening of the first groove on the vertical projection plane, so that the planar dual-direction radiating antenna generates two wave beams, wherein the two wave beams form first included angles with the substrate respectively, namely the dual-direction radiation is realized.

Description

Plane bidirectional radiation antenna
Technical field
The invention relates to a kind of antenna, and particularly relevant for a kind of plane bidirectional radiation antenna.
Background technology
Antenna is the indispensable indispensable elements of many wireless communication systems, and it concerns especially in the main composition important document of the overall performance of system.In general, antenna can be divided into scalar property (isotropic) antenna, omni-directional (omni-directional) antenna and oriented antenna according to directivity.Wherein, directive property (directive) antenna is that the electromagnetic wave energy at specific direction transmits and receives and dispatches, and therefore can extensively be applied in the wireless communication system based on directionality (fixed direction) surely.
Antenna with bidirectional radiation function mainly is to be used for the order ground that has three fixing points to communicate simultaneously, so that its directive property (directivity) needs is high.And the antenna of general bidirectional radiation or device are used two antenna elements (being radiant body) often, as two plate aerials (patch antennas), or utilize slot antenna (slot antennas) to carry out two-way radiation.Yet the mode of this quasi-tradition not only can increase complexity, cost and the volume of product, more can't reach the bidirectional radiation effect (for example because the ornaments position of feed-in structure) of symmetry (symmetric), or can't have high directive property (for example because the area of the system ground of patch antenna is big inadequately).In view of this, the present invention uses single flat plane antenna design, makes the bidirectional radiation simple, that cost is low, volume is little, symmetrical and the effect of tool high directivity and reach.
In addition, the aerial array that utilizes bidirectional radiation antenna proposed by the invention to be formed, in the scanning of the total space (full-space), can use the electronic signal modulation and synthesize (synthesize) required radiation field shape, so can exempt the required mechanical device of traditional rotable antenna array, and can reach instant (real-time) and not have the scanning of time slot (time lag).
Summary of the invention
The invention provides a kind of plane bidirectional radiation antenna, possess two-way radiation pattern, can simplify the hardware configuration of electronic system.
The present invention proposes a kind of plane bidirectional radiation antenna, comprises a substrate, one first reflecting element, an antenna body, one second reflecting element and one the 3rd reflecting element.Substrate comprises a first surface and a second surface.First reflecting element is arranged on the first surface of substrate, and a top margin of first reflecting element is for caving inward, to form one first groove at first surface.Antenna body is arranged on substrate, and is positioned at first groove, and antenna body and first reflecting element are symmetrical in a preset direction respectively.Second reflecting element is arranged on the second surface of substrate, and second reflecting element is for concaving, and to form one second groove at second surface, wherein first groove has a mutual corresponding configuration with second groove on a vertical plane.The 3rd reflecting element is arranged on substrate, and along preset direction with respect to antenna body, and the 3rd reflecting element covers the opening of first groove on vertical plane, to cause plane bidirectional radiation antenna to produce two wave beams, wherein two wave beams have first angle with respect to substrate, promptly reach the effect of bidirectional radiation (bidirectional radiation).
In one embodiment of this invention, above-mentioned antenna body comprises one first actuator and one second actuator.First actuator is arranged on the first surface of substrate, and has a first arm and one second arm.Second actuator is arranged on the second surface of substrate, and has a first arm and one second arm.Wherein, second actuator extends from second reflecting element, and the first arm of first actuator and second actuator is overlapped on vertical plane, and second arm of first actuator and second actuator is symmetrical in preset direction.
In one embodiment of this invention, the first above-mentioned reflecting element comprises one first extension and one second extension.First extension is arranged on the first surface of substrate, and is arranged in a side of the first arm of first actuator.Second extension is arranged on the first surface of substrate, and is arranged in the opposite side of the first arm of first actuator.In addition, first extension is corresponding mutually with the base of second groove on vertical plane with the end of second extension.
Based on above-mentioned, the present invention be utilize first reflecting element and second reflecting element will be by antenna body institute's radiation towards the opening of the electromagnetic energy reflected back groove of the bottom of groove, and the electromagnetic energy that utilizes the 3rd reflecting element will reflex to the opening of groove reflects back once more.Thus, will leak out from direction, and then cause plane bidirectional radiation antenna to produce two radiation beam simultaneously towards the top and the below of substrate perpendicular to substrate by the electromagnetic energy that antenna body gave off.Therefore, the bidirectional radiation field pattern that plane bidirectional radiation aerial radiation is possessed will help to simplify the hardware configuration of electronic system, and then help the development of the microminiaturization of electronic system.
For above-mentioned feature and advantage of the present invention can be become apparent, embodiment cited below particularly, and conjunction with figs. is described in detail below.
Description of drawings
Figure 1 shows that structural representation according to the plane bidirectional radiation antenna of one embodiment of the invention.
Figure 2 shows that perspective view according to the plane bidirectional radiation antenna of one embodiment of the invention.
Fig. 3 A is depicted as the schematic perspective view according to the substrate of one embodiment of the invention.
Fig. 3 B is depicted as in the tunnel, according to the schematic perspective view of the substrate of one embodiment of the invention.
Figure 4 shows that structural representation according to the plane bidirectional radiation antenna of another embodiment of the present invention.
Figure 5 shows that perspective view according to the plane bidirectional radiation antenna of yet another embodiment of the invention.
Figure 6 shows that perspective view according to the plane bidirectional radiation antenna of further embodiment of this invention.
Figure 7 shows that perspective view according to the plane bidirectional radiation antenna of further embodiment of this invention.
The main element symbol description
100,400,500,600,700: plane bidirectional radiation antenna
110: substrate
111: first surface
112: second surface
120,120 ': the second reflecting element
101,101 ': groove
130: antenna body
131: the first actuators
131a: the first arm of first actuator
131b: second arm of first actuator
132: the second actuators
132a: the first arm of second actuator
132b: second arm of second actuator
140,140 ', 140 ": first reflecting element
141,141 ', 141 ": first extension
142,142 ', 142 ": second extension
150,150 ': the 3rd reflecting element
151: the first covering part
152: the second covering part
DR: preset direction
410: the three covering part
420: the four covering part
511~516: first guide hole
521~522: second guide hole
Embodiment
Figure 1 shows that structural representation according to the plane bidirectional radiation antenna of one embodiment of the invention, Figure 2 shows that perspective view according to the plane bidirectional radiation antenna of one embodiment of the invention, please be simultaneously with reference to Fig. 1 and Fig. 2, plane bidirectional radiation antenna 100 comprises a substrate 110, one first reflecting element 140, an antenna body 130, one second reflecting element 120 and one the 3rd reflecting element 150.On physical arrangements, substrate 110 comprises a first surface 111 and a second surface 112.Wherein, first reflecting element 140 first surface 111, the second reflecting elements 120 that are arranged on substrate 110 are arranged on the second surface 112 of substrate 110.In addition, for antenna body 130, first reflecting element 140 and second reflecting element 120 all have the arcuation design that concaves, and form a groove 101 at first surface 111 and second surface 112 respectively.
Antenna body 130 comprises one first actuator 131 and one second actuator 132.Wherein, first actuator 131 is arranged on the first surface 111 of substrate 110, and second actuator 132 is arranged on the second surface 112 of substrate 110.In practical application, antenna body 130 can for example be a dipole antenna (dipoleantenna), therefore the shape of first actuator 131 and second actuator 132 presents L shaped respectively, and have both arms separately, for example: first actuator 131 has the first arm 131a and the second arm 131b, and second actuator 132 has the first arm 132a and the second arm 132b.
With regard to the overall structure of antenna body 130, second actuator 132 extends from second reflecting element 120, and therefore second reflecting element 120 is equivalent to the ground plane (also can regard the system ground of equivalence as) of antenna body 130.In addition, the first arm 132a of the first arm 131a of first actuator 131 and second actuator 132 is overlapped on vertical plane, and the second arm 132b of the second arm 131b of first actuator 131 and second actuator 132 is symmetrical in a preset direction DR.
First reflecting element 140 comprises one first extension 141 and one second extension 142.Wherein, first extension 141 and second extension 142 all are arranged on the first surface 111 of substrate 110.In addition, first extension 141 is arranged in the side of the first arm 131a of first actuator 131, and second extension 142 is arranged in the opposite side of the first arm 131a of first actuator 131.It should be noted that, in first extension 141 and second extension 142, has an end respectively, it is near the place, base of the groove 101 of first surface 111, these both ends on the vertical plane corresponding to the base of the groove on the second surface 112 101, position to each other close tie up to can be configured on the vertical plane be parallel to each other, overlapping fully or overlap.More clearly, can be divided into three kinds of corresponding mutually configuration modes in the practical operation: on (1) vertical plane, but the base complete matching of the groove 101 on the first surface 111 overlaps the base of the groove 101 on the second surface 112; (2) on the vertical plane, the base of the groove 101 on the first surface 111 exceeds the base of the groove 101 on the second surface 112; (3) on the vertical plane, the base of the groove 101 on the first surface 111 is recessed in the base of the groove 101 on the second surface 112.For instance, in the present embodiment, shown in the perspective view of Fig. 2, the both ends of first extension 141 and second extension 142 (that is base of the groove on the first surface 111 101) on the vertical plane with second surface 112 on the base of groove 101 overlapping fully, therefore first extension 141 and second extension 142 all are the arcuation of indent.
The 3rd reflecting element 150 comprises one first covering part 151 and one second covering part 152.Wherein, first covering part 151 is arranged on the first surface 111 of substrate 110, and with respect to the second arm 131b of first actuator 131.Second covering part 152 is arranged on the second surface 112 of substrate 110, and with respect to the second arm 132b of second actuator 132.In addition, first covering part 151 electrically connects first extension 141 of first reflecting element 140, and second covering part 152 electrically connects second reflecting element 120.
With regard to the overall structure of plane bidirectional radiation antenna 100, as shown in Figure 2, the antenna body 130 and first reflecting element 140 are symmetrical in preset direction DR respectively, and antenna body 130 is arranged in the groove 101.In addition, in the present embodiment, the base of groove 101 presents a parabolic shape, and antenna body 130 promptly is positioned near the parabolic focus.Moreover around the base of groove 101, the 3rd reflecting element 150 then covers the opening of groove 101 to first reflecting element 140 on vertical plane on vertical plane.Whereby, first reflecting element 140, second reflecting element 120 and the 3rd reflecting element 150 will surround entire antenna body 130 on vertical plane.
Thus, given off and towards the electromagnetic energy of the bottom of groove 101 by antenna body 130, will be earlier by first reflecting element 140 and 120 reflections of second reflecting element, and then the electromagnetic energy of the bottom of radiation direction groove 101 is directed to the opening of groove 101.Yet because the opening of groove 101 covers by the 3rd reflecting element 150 again, the electromagnetic energy that therefore originally was directed to the opening of groove 101 will be stopped and again be reflected.In view of the above, antenna body 130 can't penetrate electromagnetic energy towards the either direction width of cloth that is parallel to substrate 110, so shown in the schematic perspective view of the substrate 110 of Fig. 3 A, the electromagnetic energy of antenna body 130 will be from leaking out perpendicular to the direction of substrate 110 (just+z axle and-z axle), so cause plane bidirectional radiation antenna 100 towards the top of substrate 110 (for example :+z axle) with the below (for example :-z axle) produce two wave beams.In the above embodiments, its base complete matching for the groove 101 on the first surface 111 overlaps the base (configuration mode shown in Fig. 2 and Fig. 3 A) of the groove 101 on the second surface 112, under the ideal state, two wave beams are 90 degree with respect to the angle on x-y plane.Further, can be by adjusting groove 101 bases on the first surface 111 and the groove 101 bases relative position to each other on the second surface 112 (as mentioned above, protrude or in the relative position relation that contracts), and changing the corner dimension of two wave beams with respect to the x-y plane, its possible application is as detailed below.
It should be noted that, because plane bidirectional radiation antenna 100 has the radiation pattern of two-way (bidirectional), so in practical application, plane bidirectional radiation antenna 100 can reduce the area and the volume of electronic system, for example: vehicle bumper systems (vehicular anti-collision system), microwave relay station (microwave relay station), smart-antenna system (smart antenna system) and radar system (RADAR system) etc.
For instance, general microwave relay station must set up two antennas at least, and wherein an antenna is in order to receiving the wireless signal of a last relay station, and another antenna is then given next relay station in order to transmit wireless signal.Yet, when the plane of present embodiment bidirectional radiation antenna 100 is applied to microwave relay station, because plane bidirectional radiation antenna 100 can produce two-way radiation pattern, so microwave relay station only need set up this kind of antenna and can reach traditional original Transceiver Features, and then simplifies the hardware configuration of microwave relay station effectively.
In addition, in the application of tunnel space, owing to be difficult for receiving gps signal or other wireless signals in the tunnel, so plane bidirectional radiation antenna 100 of appropriate location that can be in tunnel configuration present embodiment, so can be with the gps signal that is transmitted by gps signal repeater (relay) or amplifier (amplifier) outside the tunnel, directly the two-port of the sense that penetrates by the plane of the present invention bidirectional radiation antenna institute width of cloth (+z and-z direction) towards the tunnel transmits gps signal, to reach the function of tunnel signal gain (tunnel booster).Whereby, the vehicle which port enters from the tunnel all can all receive gps signal.In other words, the plane bidirectional radiation antenna 100 of present embodiment also helps to simplify gps signal changes the hardware configuration that continues with amplifier station.In the present embodiment, but the base complete matching of the groove 101 on the first surface 111 overlaps the base of the groove 101 on the second surface 112, under the ideal state, the direction of two wave beams (+z and-z) be 90 degree (as shown in Figure 3A) with respect to the angle theta 1 on x-y plane.Further, can be by groove 101 bases on the adjustment first surface 111 and the groove 101 bases relative position to each other on the second surface 112, and change arbitrary wave beam radiation direction (+z or-z), this wave beam is θ 2 with respect to the angle on x-y plane, wherein θ 2 is less than θ 1.Example with Fig. 3 B: if groove 101 bases on the first surface 111, contract on vertical plane groove 101 bases on second surface 112, so can make the radiation path (+z ') of this wave beam more approach to travel vehicle in the tunnel, to improve the effect that vehicle receives gps signal.Those skilled in the art can comply with above-mentioned adjustment mode certainly, with groove 101 bases of protrusion on second surface 112,101 bases of the groove on the first surface 111, one be symmetrical in+radiation beam of z ' direction (z ') so can produce, which, then decide by actual state as for the radiation beam of needs specific direction.
In the same manner, those skilled in the art also can comply with above-mentioned adjustment mode, the ornaments mode of the 3rd reflecting element is made appropriateness ground to be changed, wherein the 3rd reflecting element can comprise first covering part 151, second covering part 152, the 3rd covering part 410 and the 4th covering part 420, can change the radiation direction of above-mentioned arbitrary wave beam equally, wherein this wave beam is executed less than θ 1 with respect to the angle on x-y plane.As if the change of the relative position of described groove between described covering part being made appropriateness, just can have the effect of bidirectional radiation simultaneously.Detailed enforcement situation then can then no longer describe in detail at this with reference to above-mentioned mode how to adjust the groove relative position.
In addition, in the application of vehicle bumper systems, plane bidirectional radiation antenna 100 can detect vehicle in advancing and the spacing between the both sides' vehicle of front and back simultaneously, and then effectively reduces the hardware configuration of vehicle bumper systems.In addition, in the application of array antenna, radar system for example, because plane bidirectional radiation antenna 100 can scan towards positive and negative two directions simultaneously, so only need the synthetic wave beam due to the electronic signal, the mechanical device that radar system just need not to set up the rotable antenna array just can reach the purpose of universe (full-space) and instant (real-time) scanning, and reduces the hardware configuration of radar system in view of the above.Further, if angle from military defense, radar system more latent close, more be not easy to be found better, just radar system the place is set, may be lower for ground level, or covered by external environment, so on radar signal detecting effect, will certainly be affected, but, just can promote the accuracy rate of radar system effectively by different angle of radiation if the method for above-mentioned change beam radiation direction is applied in the radar system.Similarly, for smart-antenna system, the characteristic of the bilateral scanning of plane bidirectional radiation antenna 100 can reduce the quantity of antenna element, and then help the microminiaturization of smart-antenna system and the realization of low priceization.
What deserves to be mentioned is that plane bidirectional radiation antenna 100 mainly is will to reflect back towards the electromagnetic energy of the opening radiation of groove 101 by the 3rd reflecting element 150.Wherein, first covering part 151 in the 3rd reflecting element 150 mainly is in order to reflecting the energy that opening gave off of first actuator 131 towards groove 101, and second covering part 152 then mainly is the energy that opening gave off of reflection second actuator 132 towards groove 101.Therefore, in practical application, the length of first covering part 151 and second covering part 152 is respectively greater than second arm 131b of first actuator 131 and the second arm 132b of second actuator 132.
In addition, in practical application, also the ability that covering part is strengthened the 3rd reflecting element 150 block electromagnetic energy can be set additionally.For instance, Figure 4 shows that structural representation according to the plane bidirectional radiation antenna of another embodiment of the present invention, with under embodiment shown in Figure 2 compares, the 3rd reflecting element 150 ' shown in Fig. 4 embodiment also comprises one the 3rd covering part 410 and one the 4th covering part 420 with Fig. 1.As shown in Figure 4, the 3rd covering part 410 is arranged on the first surface 111 of substrate 110, and overlapped with second covering part 152 on vertical plane.In addition, the 4th covering part 420 is arranged on the second surface 112 of substrate 110, and overlapped with first covering part 151 on vertical plane.
Thus, first actuator 131 on the first surface 111 will be subjected to the encirclement of first covering part 151, the 3rd covering part 410 and first reflecting element 140, and second actuator 132 on the second surface 112 will be subjected to the encirclement of second covering part 152, the 4th covering part 420 and second reflecting element 120.Whereby, first reflecting element 140, second reflecting element 120 and the 3rd reflecting element 150 will further increase the directive property of plane bidirectional radiation antenna 400 on vertical substrate 110 directions.It should be noted that, in practical application, the 3rd covering part 410 and the 4th covering part 420 are set simultaneously, or the 3rd covering part 410 and the 4th covering part 420 select a setting, can reach the function of strengthening the block electromagnetic energy, so this area has and knows that usually the knowledgeable can be according to the design configuration structure of change the 3rd reflecting element 150 ' arbitrarily.
Moreover plane bidirectional radiation antenna 100 also can be arranged in pairs or groups guide hole (via) to utilize the characteristic that just promotes reflecting element of its metallic character.For instance, Figure 5 shows that perspective view according to the plane bidirectional radiation antenna of yet another embodiment of the invention, compared to Fig. 1 and embodiment shown in Figure 2, plane bidirectional radiation antenna 500 shown in Fig. 5 embodiment also comprises a plurality of first guide holes, for example: first guide hole 511~516, and a plurality of second guide holes, for example: second guide hole 521~522.Wherein, first guide hole 511~513 runs through second reflecting element 120, substrate 110 and first extension 141, and first guide hole 514~516 runs through second reflecting element 120, substrate 110 and second extension 142.Whereby, first reflecting element 140 can be electrical connected by first guide hole 511~516 and second reflecting element 120.In addition, second guide hole 521~522 runs through first covering part 151, substrate 110 and second covering part 152, is electrical connected to cause first covering part 151 and second covering part 152.Thus, the lifting along with the characteristic of reflecting element can relatively improve the directive property of plane bidirectional radiation antenna 500 on vertical substrate 110 directions.In addition, when utilizing guide hole to promote the characteristic of reflecting element, also can as shown in Figure 4 the ability that covering part is strengthened the 3rd reflecting element 150 ' block electromagnetic energy be set additionally.
Further, in the various embodiments described above, the base of groove 101 all presents a parabolic shape.Yet in practical application, the shape on the base of groove 101 is not as limit, and its shape also can be arcuation, wavy or polyline shaped.For instance, Figure 6 shows that perspective view according to the plane bidirectional radiation antenna of further embodiment of this invention, compared to Fig. 1 and embodiment shown in Figure 2, both are main difference, for plane bidirectional radiation antenna 600, the shape on the base of formed groove 101 ' in first reflecting element 140 ', and the shape on the base of formed groove 101 ' in second reflecting element 120 '.As shown in Figure 6, correspond to the adaptive adjustment of the indent radian of first reflecting element 140 ' and second reflecting element 120 ', the base of groove 101 ' also presents polyline shaped.
On the other hand, in the various embodiments described above, the configuration of first reflecting element 140 is the layout on a plane, but the designer can do corresponding area adjustment according to design.For instance, Figure 7 shows that the perspective view according to the plane bidirectional radiation antenna of further embodiment of this invention, compared to Fig. 1 and embodiment shown in Figure 2, both are main difference, first reflecting element 140 " layout area and shape.At this, as shown in Figure 7, first reflecting element 140 " can regard planar metal bar (metal strips) as but not original metal covering (plane).Whereby, plane bidirectional radiation antenna 700 can reduce accordingly at the layout area of the first surface 111 of substrate 110, and then help the development of the microminiaturization of plane bidirectional radiation antenna 700.
In sum, the present invention is a mode of utilizing first reflecting element, second reflecting element, the 3rd reflecting element to surround antenna body on vertical plane, cause the electromagnetic energy of antenna change from perpendicular to the direction of substrate but not the direction that is parallel to substrate leak out.Thus, plane bidirectional radiation antenna can produce two wave beams simultaneously towards the top and the below of substrate, and then form the characteristic of bidirectional radiation.Relatively, in practical application, the bidirectional radiation field pattern that plane bidirectional radiation antenna is possessed will help to reduce the hardware configuration of electronic system, and then help the development of the microminiaturization of electronic system.
Though the present invention with embodiment openly as above; right its is not in order to limit the present invention; have in the technical field under any and know the knowledgeable usually; without departing from the spirit and scope of the present invention; when doing a little change and retouching, so protection scope of the present invention is as the criterion when looking claims person of defining.

Claims (15)

1. plane bidirectional radiation antenna comprises:
One substrate comprises a first surface and a second surface;
One first reflecting element be arranged on this first surface of this substrate, and this first reflecting element is for concaving, to form one first groove at this first surface;
One antenna body is arranged on this substrate, and is positioned at this first groove, and this antenna body and this first reflecting element are symmetrical in a preset direction respectively;
One second reflecting element is arranged on this second surface of this substrate, and this second reflecting element is for concaving, and to form one second groove at this second surface, this first groove has a mutual corresponding configuration with this second groove on a vertical plane; And
One the 3rd reflecting element, be arranged on this substrate, and along this preset direction with respect to this antenna body, and the 3rd reflecting element covers the opening of this first groove on this vertical plane, to cause this plane bidirectional radiation antenna to produce two wave beams, wherein this two wave beam has one first angle with respect to this substrate.
2. plane according to claim 1 bidirectional radiation antenna, wherein the 3rd reflecting element electrically connects this first reflecting element and this second reflecting element respectively.
3. plane according to claim 1 bidirectional radiation antenna, wherein the base of this first groove presents an arcuation, parabolic shape or polyline shaped.
4. plane according to claim 1 bidirectional radiation antenna, wherein this antenna body comprises:
One first actuator is arranged on this first surface of this substrate, and has a first arm and one second arm; And
One second actuator, be arranged on this second surface of this substrate, and have a first arm and one second arm, and this second actuator extends from this second reflecting element, wherein this is first overlapped on this vertical plane with the described the first arm of this second actuator, and this first is symmetrical in this preset direction with described second arm of this second actuator.
5. plane according to claim 4 bidirectional radiation antenna, wherein this first reflecting element comprises:
One first extension is arranged on this first surface of this substrate, and is arranged in a side of this first arm of this first actuator; And
One second extension is arranged on this first surface of this substrate, and is arranged in the opposite side of this first arm of this first actuator,
Wherein, this first extension is corresponding mutually with the base of this second groove on this vertical plane with the end of this second extension.
6. plane according to claim 5 bidirectional radiation antenna also comprises:
A plurality of first guide holes run through this second reflecting element, this substrate and this first extension, or run through this second reflecting element, this substrate and this second extension, are electrical connected to cause this first reflecting element and this second reflecting element.
7. plane according to claim 4 bidirectional radiation antenna, wherein the 3rd reflecting element comprises:
One first covering part is arranged on this first surface of this substrate, and with respect to this second arm of this first actuator; And
One second covering part is arranged on this second surface of this substrate, and with respect to this second arm of this second actuator,
Wherein, this first covering part and this second covering part electrically connect this first reflecting element and this second reflecting element respectively.
8. plane according to claim 7 bidirectional radiation antenna, wherein the 3rd reflecting element also comprises:
One the 3rd covering part is arranged on this first surface of this substrate, and has a mutual corresponding configuration with this second covering part on this vertical plane.
9. plane according to claim 7 bidirectional radiation antenna, wherein the 3rd reflecting element also comprises:
One the 4th covering part is arranged on this second surface of this substrate, and has a mutual corresponding configuration with this first covering part on this vertical plane.
10. plane according to claim 7 bidirectional radiation antenna also comprises:
A plurality of second guide holes run through this first covering part, this substrate and this second covering part, are electrical connected to cause this first covering part and this second covering part.
11. plane according to claim 7 bidirectional radiation antenna, wherein the length of this first covering part and this second covering part respectively greater than this first with described second arm of this second actuator.
12. according to claim 1,8 or 9 described plane bidirectional radiation antennas, wherein this mutual corresponding being configured in comprises overlapping fully or overlaps on this vertical plane.
13. plane according to claim 1 bidirectional radiation antenna wherein should corresponding mutually configuration comprise that the base of this first groove was recessed in the base of this second groove on vertical plane.
14. plane according to claim 1 bidirectional radiation antenna wherein should corresponding mutually configuration comprise that the base of this first groove protruded from the base of this second groove on vertical plane.
15. plane according to claim 12 bidirectional radiation antenna, wherein should be mutually corresponding be configured on this vertical plane is complete when overlapping, and this first angle is 90 degree, if when overlapping, this first angle is then less than 90 degree.
CN201010157787.4A 2010-03-31 2010-03-31 Planar dual-direction radiating antenna Active CN102208717B (en)

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Cited By (6)

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CN103050784A (en) * 2011-10-17 2013-04-17 上海华虹计通智能系统股份有限公司 Plane reflector concaved at side edge
CN107948947A (en) * 2016-10-13 2018-04-20 大陆-特韦斯股份有限公司 Communication equipment for vehicle to X communication
CN109613529A (en) * 2017-10-04 2019-04-12 英飞凌科技股份有限公司 Bilateral radar system and forming method thereof
CN112582789A (en) * 2019-09-29 2021-03-30 比亚迪股份有限公司 Bidirectional broadband antenna and wireless communication device with same
CN113131178A (en) * 2019-12-30 2021-07-16 杭州海康威视数字技术股份有限公司 Direction-finding antenna, direction-finding antenna system and electronic equipment
TWI774622B (en) * 2021-10-27 2022-08-11 大陸商環旭(深圳)電子科創有限公司 Wide bandwidth antenna for 5g millimeter wave

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CN112582789B (en) * 2019-09-29 2022-09-06 比亚迪股份有限公司 Bidirectional broadband antenna and wireless communication device with same
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