Suche Bilder Maps Play YouTube News Gmail Drive Mehr »
Anmelden
Nutzer von Screenreadern: Klicke auf diesen Link, um die Bedienungshilfen zu aktivieren. Dieser Modus bietet die gleichen Grundfunktionen, funktioniert aber besser mit deinem Reader.

Patentsuche

  1. Erweiterte Patentsuche
VeröffentlichungsnummerCN102938501 B
PublikationstypErteilung
AnmeldenummerCN 201210528788
Veröffentlichungsdatum3. Sept. 2014
Eingetragen10. Dez. 2012
Prioritätsdatum10. Dez. 2012
Auch veröffentlicht unterCN102938501A
Veröffentlichungsnummer201210528788.4, CN 102938501 B, CN 102938501B, CN 201210528788, CN-B-102938501, CN102938501 B, CN102938501B, CN201210528788, CN201210528788.4
Erfinder李伟文, 陈杰良, 游佰强, 周建华, 李海雄, 陈慕雄
Antragsteller厦门大学
Zitat exportierenBiBTeX, EndNote, RefMan
Externe Links:  SIPO, Espacenet
Broadband bidirectional microstrip antenna
CN 102938501 B
Zusammenfassung  übersetzt aus folgender Sprache: Chinesisch
宽带双向微带天线,涉及一种微带天线。 Two-way broadband microstrip antenna, to a microstrip antenna. 设有双面敷铜介质基板,在基板正面上印制有带两个相对中心位置反对称L形槽的平行四边形结构振子;基板反面上全部敷铜。 With a double-sided copper-clad dielectric substrate, the substrate front side printed with a relatively central location with two L-shaped grooves - symmetric parallelogram vibrator; all the copper substrate opposite. 在正面上,平行四边形的上下边分别与基板的上下边平行,且平行四边形居中放置在基板上。 On the front, top and bottom of the parallelogram are parallel with the upper and lower sides of the substrate and parallelogram centered on the substrate. 两个L形槽相对于中心点反方向对称放置并分别刻蚀至平行四边形的上下两边,L形槽的其中一臂与平行四边形的上下边垂直,另外一个臂与平行四边形的上下边平行。 Two L-shaped grooves with respect to the center point in the opposite direction and are placed symmetrically to the upper and lower sides of the etching parallelogram, wherein the upper arm and the lower side of the parallelogram vertical L-shaped groove, and the other arm and the lower edge parallel parallelogram. 反面全部敷铜作为接地面。 All negative copper as a ground plane. 从正面平行四边形的中心位置钻一个通孔至反面,用一个50Ω的同轴线接头通过通孔从反面对平行四边形振子进行馈电。 From the front parallelogram central location to drill a hole through the back, with a 50Ω coaxial connector through the through hole from the opposite face of the parallelogram transducers were fed. 具有双向特性、宽频带、低剖面、增益高、辐射效率高、结构简单。 A bi-directional characteristics, wideband, low profile, high gain, high radiation efficiency, simple structure.
Ansprüche(5)  übersetzt aus folgender Sprache: Chinesisch
1.宽带双向微带天线,其特征在于设有双面敷铜介质基板,在基板正面上印制有带两个L形槽的平行四边形结构振子,所述两个L形槽相对平行四边形结构振子的中心位置呈反对称;基板反面上全部敷铜;在正面上,平行四边形的上下边分别与基板的上下边平行,且平行四边形居中放置在基板上;两个L形槽分别刻蚀至平行四边形的上下两边,L形槽的其中一臂与平行四边形的上下边垂直,为纵向臂,另一臂与平行四边形的上下边平行,为朝向远离平行四边形中心的横向臂;反面全部敷铜作为接地面;从正面平行四边形的中心位置钻一个通孔至反面,用一个50 Ω的同轴线接头通过通孔从反面对平行四边形振子进行馈电。 1. The two-way broadband microstrip antenna, comprising a dielectric substrate provided with the double-sided copper-clad, printed on the substrate has a front side with two L-shaped grooves parallelogram transducer, the two L-shaped grooves opposite parallelogram structure center position transducer was antisymmetric; all copper substrate negative; on the front, top and bottom of the parallelogram are parallel with the upper and lower sides of the substrate and parallelogram centered on a substrate; two L-shaped grooves are etched to the upper and lower sides of the parallelogram, wherein the upper and lower vertical arm parallelogram L-shaped groove for longitudinal arm, the other arm and upper and lower parallelogram parallel to the transverse arm facing away from the center of the parallelogram; reverse all copper As a ground plane; from the front parallelogram central location to drill a hole through the back, with a 50 Ω coaxial connector through the through hole from the opposite face of the parallelogram transducers were fed.
2.如权利要求1所述的宽带双向微带天线,其特征在于所述基板是F4BK-2双面敷铜介质基板。 2. The bidirectional wideband microstrip antenna according to claim 1, wherein said substrate is a F4BK-2-sided copper-clad dielectric substrate.
3.如权利要求2所述的宽带双向微带天线,其特征在于所述基板的长度为110±0.1mm,宽度为70±0.1_,厚度为3mm。 3. The bidirectional wideband microstrip antenna according to claim 2, wherein the length of said substrate is 110 ± 0.1mm, a width of 70 ± 0.1_, a thickness of 3mm.
4.如权利要求1所述的宽带双向微带天线,其特征在于所述敷铜介质基板的相对介电常数ε r为4.3。 The bidirectional wideband microstrip antenna according to claim 1, wherein said copper cladding relative permittivity ε r of the dielectric substrate was 4.3.
5.如权利要求1所述的宽带双向微带天线,其特征在于所述L形槽的纵向臂长度为34.5±0.Imm,纵向臂宽度为2.7±0.Imm,横向臂长度为4.8±0.Imm,横向臂宽度为.4.1 + 0.1mnin 5. The bidirectional wideband microstrip antenna according to claim 1, characterized in that the longitudinal arm of said L-shaped groove of a length of 34.5 ± 0.Imm, longitudinal arm width of 2.7 ± 0.Imm, the transverse arm length of 4.8 ± 0.Imm, lateral arm width .4.1 + 0.1mnin
Beschreibung  übersetzt aus folgender Sprache: Chinesisch

宽带双向微带天线 Two-way broadband microstrip antenna

技术领域 Technical Field

[0001] 本发明涉及一种微带天线,尤其是涉及一种可用于移动通信直放站的DCS1800通信协议,在平行四边形振子体开槽的宽带双向微带天线。 [0001] The present invention relates to an antenna, in particular, it relates to a mobile communications repeater for DCS1800 communication protocol, parallelogram vibrator body slotted two-way broadband microstrip antenna.

背景技术 Background

[0002] 直放站是目前移动通信系统中通常采用的,用于提高移动通信覆盖广度和通信容量的设备。 [0002] The repeater is usually used in a mobile communication system for mobile communication coverage range and increase the communication capacity of the device. 直放站通常应用在一些特殊应用场景,如窒内走廊、狭窄街道、隧道、高速公路,在这些场合中,一般要求直放站天线应具有:双向辐射、宽频带、高增益特性。 Repeater usually used in some special application scenarios, such as smothering the corridor, the narrow streets, tunnels, highways, in these cases, the general requirements repeater antenna should have: two-way radiation, wide bandwidth, high gain characteristics. 同时,为了进一步减小天线设备的体积,要求天线要具有低剖面特性。 Meanwhile, in order to further reduce the size of the antenna device is required to have a low profile antenna characteristics.

[0003]目前,已经有部分的研究人员做过关于具有双向辐射特性的天线的研究,提出了多种实现双向特性的天线结构。 [0003] Currently, the researchers are already part of the research was done on a bi-directional antenna radiation characteristics, and proposed a variety of two-way characteristics of the antenna structure. 常见的结构有:平面阵列天线和两个背靠背定向天线[1~3]。 Common structure: planar array antennas and two directional antennas back to back [1-3]. LongshengLiu等人采用六个折合偶极子共线组阵,在两个端射方向实现了约9.05dBi增益。 LongshengLiu, who used six equivalent collinear dipole array group, in both directions to achieve about endfire 9.05dBi gain. 但阵列天线馈电结构复杂,天线面积较大[1]。 However, the complex structure of the array antenna feed, the antenna larger [1]. X.Li, L.Yang, S.-X.Gong等人利用偶极子天线组成阵列实现了可工作在2.4/5.8GHz的双频双向天线,在2.4GHz和5.8GHz频段上,天线在两端射方向上的方向系数分别达到4.5〜5.9dB和6.1〜8.9dB[2]。 X.Li, L.Yang, S.-X.Gong, who use dipole antenna arrays can be achieved in 2.4 / 5.8GHz dual-band two-way antennas in the 2.4GHz and 5.8GHz frequency bands, antenna in two direction coefficient endfire direction respectively 4.5~5.9dB and 6.1~8.9dB [2]. 也有相关的文献提出了利用单个天线元实现双向辐射特性。 Also related literature proposes using a single antenna element bidirectional radiation characteristics. 实现双向辐射特性的天线结构有:环形天线、嵌套于接地环的单(双)极天线[4~6]。 Bi-directional radiation characteristics of the antenna structure: loop antenna, nested in a single grounding ring (double) pole antenna [4-6]. 刘聪,薛锋章等人将一个单极子天线嵌套在一个U形的接地面上,实现了天线的双向特性,在所有的工作频点上天线在两个端射方向上的增益都在4.SdBi以上。 Cong, Xue Feng Zhang, who will be a monopole antenna is nested in a U-shaped ground plane to achieve the two-way characteristics of the antenna, in all working frequency of the antenna gain in both directions are endfire 4 .SdBi above. 但这些利用单个天线元实现双向特性的天线都是采用立体结构,无法实现低剖面。 But these using a single antenna element to achieve two-way characteristics of the antenna are using three-dimensional structure, we can not achieve low profile. H.Arai等人通过H形接地面和曲柄形馈电结构的微带天线,真正实现了双向辐射低剖面天线结构m。 H.Arai et al ground plane and a crank-shaped microstrip antenna feed structure through H-shaped, truly a two-way radiation low-profile antenna structures m. 如在两侧添加无源引向贴片,其端射增益可达到5.71dBi[8]。 As both sides adding a passive toward patches, which endfire gain can be achieved 5.71dBi [8]. 但该结构接地面需要H形开口,应用时要求离物理地面有一定高度。 However, the structure of the ground plane need H-shaped opening, when the application requires a certain height from the physical ground.

[0004] 参考文献: [0004] References:

[0005] [I]Longsheng LiujZhijun Zhang, Zijian Tianjet al.A bidirectional endfirearray with compactantenna elements for coal/mine tunnel communication[J].1EEEAntennas and WirelessPropagation Letters, 2012,11:342-345。 [0005] [I] Longsheng LiujZhijun Zhang, Zijian Tianjet al.A bidirectional endfirearray with compactantenna elements for coal / mine tunnel communication [J] .1EEEAntennas and WirelessPropagation Letters, 2012,11: 342-345.

[0006] [2]X.Li,L Yang, S.-X.Gong, et al.Bidirectional high gain antenna for WLANapplications[J].Progress in Electromagnetics Research Letters,2009,6:99-106。 [0006] [2] X.Li, L Yang, S.-X.Gong, et al.Bidirectional high gain antenna for WLANapplications [J] .Progress in Electromagnetics Research Letters, 2009,6: 99-106.

[0007] [3] J.Zhang, X.-M.Zhang, J.-S.Liuj et al.Dual-band bidirectional high gainantenna for WLAN2.4/5.8GHz applications [J].Electronics Letters, 2009,45(1):6-7。 [0007] [3] J.Zhang, X.-M.Zhang, J.-S.Liuj et al.Dual-band bidirectional high gainantenna for WLAN2.4 / 5.8GHz applications [J] .Electronics Letters, 2009,45 (1): 6-7.

[0008] [4]刘聪,薛锋章.一种用于隧道覆盖的宽频带单极子天线[J].微波学报,2010,26(6): 50-53。 . [0008] [4] Cong, Zhang Xue Feng tunnel covering a wide band monopole antenna Microwaves for [J], 2010,26 (6):. 50-53.

[0009] [5] Jordi Solerj Car Ies Puente, Alberto Puert0.A dual-bandbidirectional multilevel monopoleantenna[J].Microwave and Optical TechnologyLetters, 2002,34(6): 445-448。 [0009] [5] Jordi Solerj Car Ies Puente, Alberto Puert0.A dual-bandbidirectional multilevel monopoleantenna [J] .Microwave and Optical TechnologyLetters, 2002,34 (6): 445-448.

[0010] [6 ] K.Chawanonph i thak,C.Phongcharoenpan i ch,S.Kosulvitj etal.Characteristics of an ellipticalring antenna excited by a linear electricprobe [J].1nternational Journal of Electronics, 2007, 94(10): 973-984。 [0010] [6] K.Chawanonph i thak, C.Phongcharoenpan i ch, S.Kosulvitj etal.Characteristics of an ellipticalring antenna excited by a linear electricprobe [J] .1nternational Journal of Electronics, 2007, 94 (10): 973 -984.

[0011] [7] T.Mukaiyama, H.Arai, Y.Ebine.B1-directional notch and crank-shapedantenna [A].AsiaPacific Microwave Conference [C].1997.1:417-420。 [0011] [7] T.Mukaiyama, H.Arai, Y.Ebine.B1-directional notch and crank-shapedantenna [A] .AsiaPacific Microwave Conference [C] .1997.1: 417-420.

[0012] [8]H.Arai, K.Kohzu, T.Mukaiyama.B1-directional notch antenna withparasitic elements fortunnel booster system[A].Antennas and Propagation SocietyInternational Symposium[C].1997.4:2218-2221。 [0012] [8] H.Arai, K.Kohzu, T.Mukaiyama.B1-directional notch antenna withparasitic elements fortunnel booster system [A] .Antennas and Propagation SocietyInternational Symposium [C] .1997.4: 2218-2221.

发明内容 DISCLOSURE

[0013] 本发明的目的在于提供一种具有双向特性、宽频带、低剖面、增益高、辐射效率高、结构简单的宽带双向微带天线。 [0013] The object of the present invention is to provide a bidirectional characteristic, wideband, low profile, high gain, high radiation efficiency, simple structure of two-way broadband microstrip antenna.

[0014] 本发明设有双面敷铜介质基板,在基板正面上印制有带两个相对中心位置反对称L形槽的平行四边形结构振子;基板反面上全部敷铜。 [0014] The present invention features a double-sided copper-clad dielectric substrate, the substrate front side printed with a relatively central location with two anti-symmetric parallelogram vibrator L-shaped grooves; all the copper substrate opposite. 在正面上,平行四边形的上下边分别与基板的上下边平行,且平行四边形居中放置在基板上。 On the front, top and bottom of the parallelogram are parallel with the upper and lower sides of the substrate and parallelogram centered on the substrate. 两个L形槽相对于中心点反方向对称放置,两个L形槽分别刻蚀至平行四边形的上下两边,L形槽的其中一臂与平行四边形的上下边垂直,为纵向臂,另外一个臂与平行四边形的上下边平行,为横向臂。 Two L-shaped grooves in the opposite direction with respect to a center point disposed symmetrically, two L-shaped grooves are etched through the upper and lower sides of the parallelogram, wherein the upper and lower vertical arm of the L with the parallelogram-shaped groove, a longitudinal arm, another parallelogram arm and upper and lower edges parallel to the lateral arm. 反面全部敷铜作为接地面。 All negative copper as a ground plane. 从正面平行四边形的中心位置钻一个通孔至反面,用一个50 Ω的同轴线接头通过通孔从反面对平行四边形振子进行馈电。 From the front parallelogram central location to drill a hole through the back, with a 50 Ω coaxial connector through the through hole from the opposite face of the parallelogram transducers were fed.

[0015] 所述基板是F4BK-2双面敷铜介质基板,基板的长度可为110±0.1mm,宽度可为70 ±0.1mm,厚度可为3mm ;敷铜介质基板的相对介电常数ε r可为4.3。 [0015] The substrate F4BK-2 is a double-sided copper-clad dielectric substrate, the substrate length may be 110 ± 0.1mm, width is 70 ± 0.1mm, thickness of 3mm; copper-clad dielectric substrate relative permittivity ε r may be 4.3.

[0016] 所述的平行四边形结构振子的边长可为87.9±0.1mm,宽可为41.8±0.1mm,上下边错开距离可为7.7±0.1mm。 [0016] The parallelogram structure vibrator side for 87.9 ± 0.1mm, width for 41.8 ± 0.1mm, the lower offset distance may be 7.7 ± 0.1mm. 两个形状大小相同的L形槽反对称放置。 Two shapes the same size as the L-shaped groove antisymmetric place. L形槽的纵向臂长度可为34.5±0.Imm,纵向臂宽度可为2.7±0.Imm,横向臂长度可为4.8±0.Imm,横向臂宽度可为4.1±0.I臟。 Longitudinal arm length L-shaped groove for 34.5 ± 0.Imm, longitudinal arm width may be 2.7 ± 0.Imm, lateral arm length of 4.8 ± 0.Imm, lateral arm width of 4.1 ± 0.I dirty.

[0017] 与现有的印制直放站天线相比,本发明具有以下突出的优点和显著的效果: [0017] Compared with conventional printing repeater antennas, the present invention has the following outstanding advantages and significant results:

[0018] 具有双向辐射特性、宽频带、低剖面、增益高、结构简单、生产成本低。 [0018] The bi-directional radiation characteristics, wideband, low profile, high gain, simple structure, low production costs. 其相对带宽为5.8%两端射方向增益约为4.3dBi,在天线的工作频带内,天线辐射场为具有一定倾角的线极化。 A relative bandwidth of 5.8% at both ends of the radio directional gain of about 4.3dBi, in the operating band of the antenna, antenna radiation field with a certain inclination to linear polarization.

附图说明 Brief Description

[0019] 图1为本发明实施例的结构示意图。 [0019] Figure 1 is a schematic view of the structure of an embodiment of the invention.

[0020] 图2为本发明实施例的回波损耗性能图。 [0020] FIG. 2 is a schematic diagram of return loss performance of implementation. 在图2中,横坐标表示频率Frequency (GHz),纵坐标表示馈电端口反射系数S11 (dB),曲线a表示仿真结果simulation ;曲线b表示实测结果measure。 In FIG. 2, the abscissa represents the frequency Frequency (GHz), the ordinate represents a feeding port reflection coefficient S11 (dB), the curve shows a simulation result of simulation; curve b represents experimental results measure.

[0021] 图3为本发明实施例的在频率为1.79GHz时的yoz面方向图。 [0021] FIG. 3 embodiment of the present invention at a frequency of 1.79GHz when yoz surface pattern.

[0022] 图4为本发明实施例的在频率为1.85GHz时的yoz面方向图。 [0022] Figure 4 of the present invention at a frequency of 1.85GHz plane direction when yoz embodiment of FIG.

具体实施方式 DETAILED DESCRIPTION

[0023] 以下结合实施例和附图对本发明作进一步说明。 [0023] The following examples and drawings of the present invention will be further described below. [0024] 参见图1,本发明设有双面敷铜介质基板1,介质基板的正面为平行四边形振子体 [0024] Referring to Figure 1, the present invention features a double-sided copper-clad dielectric substrate 1, the front dielectric substrate is parallelogram transducer body

2、L形槽3。 2, L-shaped groove 3.

[0025] 介质基板I采用普通的F4BK-2双面敷铜电路基板其长为110.0mm±0.1mm,宽为70.0_±0.1mm,厚度为3mm ;敷铜介质基板的相对介电常数ε ^为4.3。 [0025] I using conventional dielectric substrate F4BK-2-sided copper-clad circuit substrate which length is 110.0mm ± 0.1mm, width 70.0_ ± 0.1mm, thickness 3mm; copper-clad dielectric substrate relative permittivity ε ^ 4.3. 平行四边形振子体2边长为87.9±0.1mm,宽为41.8±0.1mm,上下边错开距离为7.7±0.1mm。 Parallelogram vibrator 2 is a side length of 87.9 ± 0.1mm, width of 41.8 ± 0.1mm, the lower offset distance of 7.7 ± 0.1mm. 两个反对称L形槽3的间距为6.8±0.lmm, L形槽的纵向臂长度为34.5±0.Imm,纵向臂宽度为2.7±0.Imm,横向臂长度为4.8±0.1mm,横向臂宽度为4.1±0.lmm。 Two anti-symmetric L-shaped groove pitch 3 is 6.8 ± 0.lmm, longitudinal arm length L-shaped groove is 34.5 ± 0.Imm, longitudinal arm width of 2.7 ± 0.Imm, lateral arm length of 4.8 ± 0.1mm, lateral arm width of 4.1 ± 0.lmm.

[0026] 参见图2,图2给出了本发明实施例的端口反射系数(dB)性能图。 [0026] Referring to Figure 2, Figure 2 shows the port reflection coefficient (dB) performance embodiment of the present invention FIG. 从图2可以看出,天线-1OdB的工作带宽范围1.776~1.865GHz,绝对带宽为105MHz,相对带宽约为5.8%。 As can be seen from Figure 2, the operating bandwidth of the antenna -1OdB range 1.776 ~ 1.865GHz, the absolute bandwidth of 105MHz, the relative bandwidth of about 5.8%.

[0027] 参见图3和4,由图3和4可见,工作频率为1.79GHz和时在yoz平面上,即E面上的方向图,在工作频带内天线近似具有双向辐射特性,最大辐射方向向+ζ轴即辐射元法向偏移。 [0027] Referring to FIG. 3 and 4, can be seen from Fig. 3 and 4, the operating frequency of 1.79GHz and is on the yoz plane that pattern E plane, the operating frequency band antenna having a bidirectional radiation characteristics approximate maximum radiation direction to + ζ axis that is radiating element method to offset. 在1.79GHz谐振频点,最大辐射方向为与辐射元向成50°夹角的方向,其增益约为 In 1.79GHz resonance frequency, maximum radiation direction and the direction of the radiating element to a 50 ° angle, their gain is about

4.3dBi ;在1.85GHz谐振频点,最大辐射方向与+ζ轴夹角为54。 4.3dBi; resonance frequency at 1.85GHz, the direction of maximum radiation angle of 54 + ζ axis. ,其增益约为4.3dBi。 Its gain of about 4.3dBi.

Patentzitate
Zitiertes PatentEingetragen Veröffentlichungsdatum Antragsteller Titel
CN2533634Y5. Sept. 200129. Jan. 2003西安海天天线科技股份有限公司宽频带微带贴片天线
CN102683827A7. Juni 201219. Sept. 2012清华大学Bidirectional radiating antenna used in mine shafts and tunnels
US646967419. Juli 200122. Okt. 2002James Stanley PodgerDouble-lemniscate antenna element
Nichtpatentzitate
Referenz
1Tohru MUKAIYAMA et al..Bi-directional Notch and Crank-shaped Antenna.《Asia Pacific Microwave Conference》.1997,
Klassifizierungen
Internationale KlassifikationH01Q1/38
Juristische Ereignisse
DatumCodeEreignisBeschreibung
20. Febr. 2013C06Publication
27. März 2013C10Request of examination as to substance
3. Sept. 2014C14Granted