WO2016033768A1 - 一种后馈式天线的馈源结构 - Google Patents

一种后馈式天线的馈源结构 Download PDF

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Publication number
WO2016033768A1
WO2016033768A1 PCT/CN2014/085904 CN2014085904W WO2016033768A1 WO 2016033768 A1 WO2016033768 A1 WO 2016033768A1 CN 2014085904 W CN2014085904 W CN 2014085904W WO 2016033768 A1 WO2016033768 A1 WO 2016033768A1
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WIPO (PCT)
Prior art keywords
feed
feedforward
antenna according
waveguide
holder
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PCT/CN2014/085904
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English (en)
French (fr)
Inventor
阳恩主
陈鹏羽
东君伟
许超磊
张锐明
Original Assignee
广东通宇通讯股份有限公司
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Application filed by 广东通宇通讯股份有限公司 filed Critical 广东通宇通讯股份有限公司
Priority to PCT/CN2014/085904 priority Critical patent/WO2016033768A1/zh
Priority to CN201480082827.XA priority patent/CN107078398A/zh
Publication of WO2016033768A1 publication Critical patent/WO2016033768A1/zh

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Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01QANTENNAS, i.e. RADIO AERIALS
    • H01Q19/00Combinations of primary active antenna elements and units with secondary devices, e.g. with quasi-optical devices, for giving the antenna a desired directional characteristic
    • H01Q19/10Combinations of primary active antenna elements and units with secondary devices, e.g. with quasi-optical devices, for giving the antenna a desired directional characteristic using reflecting surfaces
    • H01Q19/18Combinations of primary active antenna elements and units with secondary devices, e.g. with quasi-optical devices, for giving the antenna a desired directional characteristic using reflecting surfaces having two or more spaced reflecting surfaces
    • H01Q19/19Combinations of primary active antenna elements and units with secondary devices, e.g. with quasi-optical devices, for giving the antenna a desired directional characteristic using reflecting surfaces having two or more spaced reflecting surfaces comprising one main concave reflecting surface associated with an auxiliary reflecting surface

Definitions

  • the present invention relates to the field of point-to-point wireless communication antennas, and more particularly to a feed structure for a feedforward antenna for Extremely High Frequency (EHF).
  • EHF Extremely High Frequency
  • antennas can be classified into feedforward antennas and feedforward antennas depending on the location of the feed.
  • the feed of the feedforward antenna is installed at the focus of the reflection surface of the antenna, and the wireless signal can be focused to the feed after being reflected by the main reflection surface of the antenna; and the feed of the feedforward antenna is fixed to the back of the reflection surface of the antenna, which belongs to a secondary reflective antenna comprising two reflective surfaces, wherein the primary reflective surface is generally a paraboloid, and the secondary reflective surface is disposed at a focal point of the primary reflective surface, after the wireless signal passes through the secondary reflection of the primary reflective surface and the secondary reflective surface, It can be shaped by the feed to the active system at the back of the antenna. Due to the secondary reflection, the back-fed antenna can effectively reduce the energy occlusion of the feed, and can effectively shape the feed primary pattern, so it has the advantages of high antenna gain and receiving efficiency.
  • the feed structure of the conventional feedforward antenna mainly comprises three parts: a waveguide unit, a feed base and a transition converter, wherein the bottom of the waveguide unit is fixed to the feed base, and the feed base is closely connected with the transition piece. And the end face sealing is achieved between the two by a sealing ring provided on the transitional conversion member.
  • the guiding depths of the waveguide unit and the feed base are relatively limited, so that it is easy to occur between the waveguide unit and the feed holder and between the feed holder and the transition member.
  • the situation of poor concentricity affects the receiving effect of the feedforward antenna, and it is difficult to meet the receiving requirements of the extremely high frequency communication signal.
  • One of the objects of the present invention is to provide an improvement in the deficiencies of the prior art.
  • the feed structure of a feedforward antenna comprises a waveguide unit, a feed base and a transition converter, wherein the waveguide unit, the feed base and the transition piece are centrally symmetric;
  • the source base is connected to the transitional conversion member, and includes a feed base body and an introduction portion extending perpendicularly from a bottom of the feed base body, and the feed base surface is further provided with a waveguide receiving groove
  • the waveguide receiving groove extends from a surface of the feeding base body to a bottom of the introduction portion, and the waveguide unit is housed and fixed inside the waveguide receiving groove.
  • a seal ring is further included, and the seal seat is sealed by the seal ring between the feed base and the transition piece.
  • the surface of the introduction portion of the feed holder is formed with an annular seal groove, and the seal ring is accommodated in the annular seal groove.
  • the transitional conversion member includes four slots corresponding to the introduction portion of the feed base, and the introduction portion is housed in the Said inside the IHJ slot.
  • the bottom portion of the introduction portion of the feed holder is provided with a cutout portion in contact with the recess.
  • the transition conversion member includes a connecting portion and a support base, and the connecting portion is connected to the feed base body,
  • the support table extends perpendicularly from the bottom surface of the connecting portion, and the IHJ groove extends from the surface of the connecting portion to the bottom of the support table.
  • the connecting portion of the transitional conversion member and the feed base body are fixedly connected to each other by screws.
  • the waveguide unit is fixedly received inside the waveguide receiving groove by an adhesive.
  • the waveguide unit has a guiding depth of at least 11.4 mm at the feed holder.
  • the feed holder has a guiding depth of at least 17.5 mm at the transition member.
  • the feed structure of the feedforward antenna provided by the present invention can effectively improve the guiding depth of the waveguide unit in the feed base by forming the introduction portion in the feed base; By forming the four slots in the transition piece to receive the lead-in portion, the guiding depth of the feed holder in the transition piece can be effectively improved, and thus the feed structure of the feed-back antenna can be
  • the waveguide unit, the feed base and the transition converter are ensured to be centrally symmetric, and the receiving effect of the feedforward antenna is improved to meet the receiving requirement of the extremely high frequency communication signal.
  • a bottom portion is disposed at the bottom of the feeding base to ensure better contact between the feeding base and the transitional conversion member; and between the feeding base and the transitional conversion member
  • the use of a cylindrical seal ensures better sealing and assembly between the feed holder and the transition piece.
  • FIG. 1 is an embodiment of a feed structure of a feedforward antenna provided by the present invention. Stereoscopic decomposition diagram
  • FIG. 2 is a cross-sectional exploded view of the feed structure of the feedforward antenna shown in FIG. 1.
  • FIG. 3 is a cross-sectional structural view of the feed structure of the feedforward antenna shown in FIG. detailed description
  • FIG. 1 to FIG. 3 are schematic structural diagrams of an embodiment of a feed structure of a feedforward antenna according to the present invention.
  • the feed structure 100 can be applied to very high frequency
  • a feedforward antenna includes a waveguide unit 110, a feed holder 120, a transition converter 130, and a seal ring 140.
  • the waveguide unit 110 is fixed to the feed base 120, and the feed base 120 is closely connected to the transition piece 130, and the waveguide guide 110, the feed base 120 and the The transition converters 130 are centrally symmetrical.
  • the feeding base 120 includes a feeding base body 121 and an introduction portion 122 extending perpendicularly from a bottom central portion of the feeding base body 121, wherein the feeding base body 121 may be a disc-shaped structure, and the The introduction portion 122 may have a cylindrical structure.
  • the feed holder body 121 and the introduction portion 122 may be of a unitary structure.
  • the feed base 120 may further be formed with a waveguide receiving groove 123.
  • the waveguide receiving groove 123 may be used for receiving and fixing the waveguide unit 110, and may be located from a central axis position of the feed holder main body 121.
  • the inner extension extends through the feed holder body 121 to the bottom of the introduction portion 122.
  • the bottom of the waveguide unit 110 can be received in the inner portion of the waveguide receiving groove 123, and is fixed inside the waveguide receiving groove 123 by an adhesive, so as to be disposed in a central axis symmetric relationship with the feeding base 120. Since the introduction portion 122 is formed at the bottom of the feed base 120 and the waveguide receiving groove 123 extends to the introduction portion 122, the feed structure 100 provided in this embodiment can effectively increase the waveguide unit 110
  • the guiding depth of the feeding base 120 for example, in a specific embodiment, the groove receiving depth of the waveguide receiving groove 123 may be 17.5 mm or more, that is, the waveguide unit 110 is at the feeding base. The guiding depth of 120 can reach more than 17.5 mm.
  • the transition piece 130 may include a connecting portion 131 and a support table 132, wherein the connecting portion 131 may also be a disc-shaped structure, and the radius thereof may be larger than the feed base body 121 of the feed base 120, and The thickness may be smaller than the introduction portion 122 of the feed holder 120.
  • the connecting portion 131 may be fixedly coupled to the feed holder main body 121 by screws or other fasteners.
  • the support base 132 and the connecting portion 131 may be an integral structure. Specifically, the support base 132 may extend perpendicularly from a central area of the bottom of the connecting portion 131.
  • a surface central region of the transitional conversion member 130 may be formed with a groove 133 that may extend from a surface of the connecting portion 131 to the support table 132 Bottom.
  • the groove 133 is mainly used to receive the introduction portion 122 of the feed base 120 when the transition piece 130 and the feed base 120 are connected, so that the size and shape of the groove 133 are
  • the introduction unit 122 is identical.
  • the lead-in portion 122 of the feed base 120 may have an extension length of 11.4 mm or more, and correspondingly, the recess 133 has a depth of at least 11.4 mm to ensure that the introduction portion 122 can be completely The inside of the recess 133 is received, whereby the guiding depth of the feed base 120 at the transition piece 130 can also be 11.4 mm or more.
  • the bottom of the introduction portion 122 of the feed base 120 may be provided with a hollow portion.
  • the outer cylindrical surface of the introduction portion 122 of the feeding base 120 may be formed with an annular sealing groove 124, and the sealing ring 140 may be sleeved around the introduction portion 122 of the feeding base 120 and housed therein.
  • the inside of the annular seal groove 124 is described to achieve a cylindrical seal with the transition piece 130.
  • the sealing ring 140 may be located adjacent to the bottom of the introduction portion 122 and located at the periphery of the bottom of the waveguide unit 110.
  • the feed structure 100 of the feedforward antenna can effectively improve the waveguide unit 110 in the feed base 120 by forming the introduction portion 122 in the feed base 120.
  • the guiding depth of the feed holder 120 at the transition piece 130 can be effectively improved, thereby
  • the feed structure 100 of the feedforward antenna can ensure that the waveguide unit 110, the feed base 120 and the transition converter 130 are centrally symmetric, and the receiving effect of the feedforward antenna is improved to meet the pole. Receiving requirements for high frequency communication signals.
  • the bottom of the feeding base 120 is provided with a hollow portion to ensure better contact between the feeding base 120 and the transitional member 130; and, the feeding base 120 and the transition A cylindrical seal is used between the conversion members 130 to ensure better sealing and assembly between the feed holder 120 and the transition member 130.

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Abstract

本发明提供一种后馈式天线的馈源结构,所述后馈式天线的馈源结构,包括波导单元、馈源座和过渡转换件,所述波导单元、所述馈源座和所述过渡转换件呈中心轴对称;所述馈源座与所述过渡转换件相连接,且其包括馈源座主体和从所述馈源座主体底部垂直延伸的导入部,并且,所述馈源座表面还设有还形成有波导收容槽,所述波导收容槽从所述馈源座主体表面延伸到所述导入部的底部,所述波导单元收容固定在所述波导收容槽内部。

Description

一种后馈式天线的馈源结构 技术领域
本发明涉及点对点无线通信天线领域, 特別地, 涉及一种适 用于极高频 (Extremely High Frequency, EHF)的后馈式天线的馈源 结构。
背景技术
一般来说, 天线根据馈源的位置可以分为前馈式天线和后馈 式天线。 前馈式天线的馈源安装在天线反射面的焦点处, 无线信 号经过天线主反射面进行反射之后可以聚焦到馈源; 而后馈式天 线的馈源安装固定在天线反射面的背部, 其属于二次反射式天线, 其包括两个反射面, 其中主反射面一般是抛物面, 而副反射面设 置在主反射面的焦点处, 无线信号经过主反射面和副反射面的二 次反射之后, 可以经馈源赋型传输到天线背部的有源系统。 由于 经过二次反射, 后馈式天线可以有效减少馈源对能量遮挡, 并且 能够有效赋型馈源初级方向图, 因此具有天线增益和接收效率均 较高等优点。
常规的后馈式天线的馈源结构主要包括波导单元、 馈源座和 过渡转换件三个部分, 其中, 波导单元的底部固定在馈源座, 而 馈源座与所述过渡转换件紧密相连, 并且二者之间通过设置在所 述过渡转换件的密封圈实现端面密封。 然而, 在上述常规的后馈 式天线的馈源结构中, 波导单元和馈源座的导向深度均比较有限, 因此容易出现波导单元与馈源座之间以及馈源座与过渡转换件之 间的同心度不佳的情况, 从而影响后馈式天线的接收效果, 难以 达到极高频通信信号的接收要求。
发明内容
本发明的其中一个目的是为了改进现有技术的缺陷而提供了 一种适用于极高频的后馈式天线的馈源结构。
本发明提供的一种后馈式天线的馈源结构包括波导单元、 馈 源座和过渡转换件, 所述波导单元、 所述馈源座和所述过渡转换 件呈中心轴对称; 所述馈源座与所述过渡转换件相连接, 且其包 括馈源座主体和从所述馈源座主体底部垂直延伸的导入部, 并且, 所述馈源座表面还设有还形成有波导收容槽, 所述波导收容槽从 所述馈源座主体表面延伸到所述导入部的底部, 所述波导单元收 容固定在所述波导收容槽内部。
在本发明提供的后馈式天线的馈源结构的一种较佳实施例 中, 还包括密封圈, 所述馈源座和所述过渡转换件之间通过所述 密封圈进行圓柱面密封。
在本发明提供的后馈式天线的馈源结构的一种较佳实施例 中, 所述馈源座的导入部表面形成有环形密封槽, 所述密封圈收 容在所述环形密封槽。
在本发明提供的后馈式天线的馈源结构的一种较佳实施例 中, 所述过渡转换件包括与所述馈源座的导入部相对应的四槽, 所述导入部收容在所述 IHJ槽内部。
在本发明提供的后馈式天线的馈源结构的一种较佳实施例 中, 所述馈源座的导入部的底部与所述凹槽相接触区域设置有避 空部分。
在本发明提供的后馈式天线的馈源结构的一种较佳实施例 中, 所述过渡转换件包括连接部和支撑台, 所述连接部与所述馈 源座主体相连接, 所述支撑台从所述连接部底面垂直延伸, 且所 述 IHJ槽从所述连接部表面延伸到所述支撑台底部。
在本发明提供的后馈式天线的馈源结构的一种较佳实施例 中, 所述过渡转换件的连接部和所述馈源座主体通过螺丝进行相 互固定连接。
在本发明提供的后馈式天线的馈源结构的一种较佳实施例 中, 所述波导单元通过粘胶固定收容在所述波导收容槽的内部。
在本发明提供的后馈式天线的馈源结构的一种较佳实施例 中, 所述波导单元在所述馈源座的导向深度至少为 11.4毫米。 在本发明提供的后馈式天线的馈源结构的一种较佳实施例 中, 所述馈源座在所述过渡转换件的导向深度至少为 17.5毫米。
与现有技术相比, 本发明提供的后馈式天线的馈源结构通过 在所述馈源座形成所述导入部, 可以有效提高所述波导单元在所 述馈源座的导向深度; 同时, 通过在所述过渡转换件形成所述四 槽来收容导入部, 可以有效提高所述馈源座在所述过渡转换件的 导向深度, 由此, 所述后馈式天线的馈源结构可以保证所述波导 单元、 所述馈源座和所述过渡转换件三者呈中心轴对称, 提高后 馈式天线的接收效果, 以满足极高频通信信号的接收要求。 另外, 所述馈源座底部设置有避空部分, 可以保证所述馈源座和所述过 渡转换件之间具有更好的接触; 并且, 所述馈源座和所述过渡转 换件之间采用圓柱面密封, 可以保证所述馈源座和所述过渡转换 件之间具有更佳的密封性和装配性。
附图说明
为了更清楚地说明本发明实施例中的技术方案,下面将对实施例 描述中所使用的附图作简单地介绍, 显而易见地, 下面描述中的附图 仅仅是本发明的一些实施例, 对于本领域普通技术人员来讲, 在不付 出创造性劳动的前提下,还可以根据这些附图获得其它的附图,其中: 图 1 为本发明提供的后馈式天线的馈源结构一种实施例的立 体分解示意图;
图 2为图 1所示的后馈式天线的馈源结构的剖面分解示意图; 图 3为图 1所示的后馈式天线的馈源结构的剖面结构示意图。 具体实施方式
下面将对本发明实施例中的技术方案进行清楚、 完整地描述, 显 然, 所描述的实施例仅是本发明的一部分实施例, 而不是全部的实施 例。 基于本发明中的实施例, 本领域普通技术人员在没有做出创造性 劳动前提下所获得的所有其它实施例, 都属于本发明保护的范围。
请参阅图 1〜图 3, 其为本发明提供的后馈式天线的馈源结构 一种实施例的结构示意图。 所述馈源结构 100 可以适用于极高频 的后馈式天线, 其包括波导单元 110、馈源座 120、过渡转换件 130 和密封圈 140。 其中, 所述波导单元 110固定在所述馈源座 120, 而所述馈源座 120 与所述过渡转换件 130 紧密相连, 且所述波导 导员 110、所述馈源座 120和所述过渡转换件 130三者呈中心轴对 称。
所述馈源座 120包括馈源座主体 121和从所述馈源座主体 121 底部中心区域垂直延伸的导入部 122, 其中, 所述馈源座主体 121 可以为圓盘状结构, 而所述导入部 122 可以为圓柱状结构。 在具 体实施例中, 所述馈源座主体 121 和所述导入部 122 可以为一体 式结构。 并且, 所述馈源座 120还可以形成有波导收容槽 123, 所 述波导收容槽 123可以用于收容固定所述波导单元 110,且其可以 从所述馈源座主体 121 的中心轴位置向内延伸, 并且穿过所述馈 源座主体 121到达所述导入部 122的底部。
所述波导单元 110 的底部可以收容在所述波导收容槽 123 内 部, 并且通过粘胶固定在所述波导收容槽 123 的内部, 从而实现 与所述馈源座 120 呈中心轴对称设置。 由于所述馈源座 120 的底 部形成有所述导入部 122 并且所述波导收容槽 123 延伸到所述导 入部 122, 因此本实施例提供的馈源结构 100可以有效增加所述波 导单元 110在所述馈源座 120 的导向深度, 比如, 在具体实施例 中, 所述波导收容槽 123 的开槽深度可以为 17.5毫米以上, 也即 是说, 所述波导单元 110在所述馈源座 120 的导向深度可以达到 17.5毫米以上。
所述过渡转换件 130可以包括连接部 131和支撑台 132,其中 所述连接部 131 同样可以为圓盘形结构, 且其半径可以大于所述 馈源座 120的馈源座主体 121, 而其厚度可以小于所述馈源座 120 的导入部 122。所述连接部 131可以通过螺丝或者其他紧固件与所 述馈源座主体 121 固定连接。 所述支撑台 132 与所述连接部 131 可以为一体结构, 具体地, 所述支撑台 132可以从所述连接部 131 底部的中心区域垂直延伸而成。
所述过渡转换件 130的表面中心区域可以形成有凹槽 133,所 述凹槽 133 可以从所述连接部 131 表面延伸到所述支撑台 132 的 底部。 具体地, 所述凹槽 133 主要用来在所述过渡转换件 130和 所述馈源座 120相连接时收容所述馈源座 120的导入部 122, 因此 所述凹槽 133 的尺寸与所述导入部 122相一致。 在本实施例中, 所述馈源座 120的导入部 122的延伸长度可以为 11.4毫米以上, 相对应地, 所述凹槽 133 的深度至少为 11.4毫米, 以保证所述导 入部 122 可以完全收容在所述凹槽 133 内部, 由此, 所述馈源座 120在所述过渡转换件 130的导向深度也可以达到 11.4毫米以上。
为保证所述馈源座 120 与所述过渡转换件 130之间的良好接 触, 在一种实施例中, 所述馈源座 120 的导入部 122底部还可以 设置有避空部分。
另一方面, 所述馈源座 120 的导入部 122 的外围圓柱面可以 形成有环形密封槽 124, 所述密封圈 140 可以套设在所述馈源座 120的导入部 122外围并且收容在所述环形密封槽 124 内部,从而 实现与所述过渡转换件 130 之间的圓柱面密封。 并且, 在具体实 施例中, 所述密封圈 140 的位置可以临近于所述导入部 122 的底 部, 并且位于所述波导单元 110的底部外围。
相较于现有技术, 本发明提供的后馈式天线的馈源结构 100 通过在所述馈源座 120形成所述导入部 122, 可以有效提高所述波 导单元 110在所述馈源座 120 的导向深度; 同时, 通过在所述过 渡转换件 130形成所述凹槽 133来收容导入部 122, 可以有效提高 所述馈源座 120在所述过渡转换件 130 的导向深度, 由此, 所述 后馈式天线的馈源结构 100可以保证所述波导单元 110、所述馈源 座 120和所述过渡转换件 130三者呈中心轴对称, 提高后馈式天 线的接收效果, 以满足极高频通信信号的接收要求。
另外, 所述馈源座 120 底部设置有避空部分, 可以保证所述 馈源座 120和所述过渡转换件 130 之间具有更好的接触; 并且, 所述馈源座 120和所述过渡转换件 130之间采用圆柱面密封, 可 以保证所述馈源座 120和所述过渡转换件 130 之间具有更佳的密 封性和装配性。
以上所述实施例仅为更好解释说明本发明, 并非用于限制本 发明技术方案的保护范围。 熟悉本领域的技术人员应该知道, 本 发明并不局限于上述实施方案, 凡在不背离本发明的精神和实质 之内, 所作的任何修改和替换, 均应包含在本发明权利要求所保 护范围之内。

Claims

权利要求书
1. 一种后馈式天线的馈源结构, 其特征在于, 包括波导单元、 馈源座和过渡转换件, 所述波导单元、所述馈源座和所述过渡转换件 呈中心轴对称; 所述馈源座与所述过渡转换件相连接, 且其包括馈源 座主体和从所述馈源座主体底部垂直延伸的导入部, 并且, 所述馈源 座表面还设有还形成有波导收容槽,所述波导收容槽从所述馈源座主 体表面延伸到所述导入部的底部,所述波导单元收容固定在所述波导 收容槽内部。
2. 根据权利要求 1所述的后馈式天线的馈源结构,其特征在于, 还包括密封圈,所述馈源座和所述过渡转换件之间通过所述密封圈进 行圓柱面密封。
3. 根据权利要求 2所述的后馈式天线的馈源结构,其特征在于, 所述馈源座的导入部表面形成有环形密封槽,所述密封圈收容在所述 环形密封槽。
4. 根据权利要求 1所述的后馈式天线的馈源结构,其特征在于, 所述过渡转换件包括与所述馈源座的导入部相对应的四槽,所述导入 部收容在所述 IHJ槽内部。
5. 根据权利要求 4所述的后馈式天线的馈源结构,其特征在于, 所述馈源座的导入部的底部与所述凹槽相接触区域设置有避空部分。
6. 根据权利要求 4所述的后馈式天线的馈源结构,其特征在于, 所述过渡转换件包括连接部和支撑台,所述连接部与所述馈源座主体 相连接, 所述支撑台从所述连接部底面垂直延伸, 且所述 IHJ槽从所述 连接部表面延伸到所述支撑台底部。
7. 根据权利要求 6所述的后馈式天线的馈源结构,其特征在于, 所述过渡转换件的连接部和所述馈源座主体通过螺丝进行相互固定 连接。
8. 根据权利要求 1所述的后馈式天线的馈源结构,其特征在于, 所述波导单元通过粘胶固定收容在所述波导收容槽的内部。
9. 根据权利要求 1至 8中任一项所述的后馈式天线的馈源结构, 其特征在于, 所述波导单元在所述馈源座的导向深度至少为 17.5 毫 米。
10. 根据权利要求 9所述的后馈式天线的馈源结构,其特征在于, 所述馈源座在所述过渡转换件的导向深度至少为 11.4毫米。
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CN102570050A (zh) * 2011-12-19 2012-07-11 西安普天天线有限公司 长焦后馈超高性能微波抛物面天线

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EP1221740A1 (en) * 2000-12-27 2002-07-10 Marconi Communications GmbH Cassegrain-type feed for an antenna
CN101383451A (zh) * 2008-05-28 2009-03-11 广东盛路通信科技股份有限公司 超高性能天线的微波馈源
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