CN107658568B - Dual-frequency dual-polarization common-aperture waveguide horn planar array antenna - Google Patents

Abstract

The invention provides a dual-frequency dual-polarization common-caliber waveguide horn planar array antenna, which comprises: the antenna comprises a square waveguide horn, a waveguide orthogonal mode coupler, an antenna unit formed by combining the square waveguide horn and the waveguide orthogonal mode coupler and an arrangement mode of a plurality of antenna units on a plane. The horn aperture of each square waveguide horn antenna is square, and the square waveguide horn antenna is in a three-layer ladder transition square pyramid horn structure; the waveguide orthogonal mode coupler is an orthogonal mode coupler with a longitudinal cone-shaped branch structure, and a public port of the waveguide orthogonal mode coupler is connected with a waveguide port of the square waveguide horn to form a waveguide horn antenna supporting dual-frequency dual-polarization common caliber, namely an antenna unit; the antenna units are arranged on a plane to form a planar array antenna. The planar array antenna manufactured by the technical scheme has the characteristics of double frequency, dual polarization and common caliber.

Description

Translated fromChinese

双频双极化共口径波导喇叭平面阵列天线Dual-frequency dual-polarization common-aperture waveguide horn planar array antenna

技术领域Technical Field

本发明属于卫星通信天线领域，尤其涉及一种双频双极化共口径波导喇叭平面阵列天线，特别针对在卫星应急机动通信中使用。The present invention belongs to the field of satellite communication antennas, and in particular relates to a dual-frequency dual-polarization common-aperture waveguide horn planar array antenna, which is especially used in satellite emergency mobile communications.

背景技术Background Art

平面阵列卫星天线在国际上已经开始少量生产和使用，并且正在形成一种新的发展趋势，代表着当前国际卫星通信应用的新方向。已有平面阵列卫星天线大都采用的是振子微带平面阵列技术和波导缝隙平面阵列技术。Planar array satellite antennas have begun to be produced and used in small quantities internationally, and are forming a new development trend, representing a new direction for the current international satellite communication applications. Most of the existing planar array satellite antennas use the vibrator microstrip planar array technology and the waveguide slot planar array technology.

振子微带平面阵列天线通过平板上排列有序的半波振子将电磁波辐射到空中。射频耦合馈电网络采用微波技术中的微带电路技术。The dipole microstrip planar array antenna radiates electromagnetic waves into the air through the orderly arranged half-wave dipoles on the flat plate. The RF coupling feeding network adopts the microstrip circuit technology in microwave technology.

振子微带平面阵列天线中采用的微带是印制在电路板上的，采用双微带正交馈电方式，在方形辐射贴片上形成双频点谐振，可以实现双频双极化共口径平板天线。但是，微带振子式天线的馈电效率低，容易激励表面波，天线带宽窄，承载功率低。受国内技术条件和制造工艺的限制，常见的产品无法实现收发共口径，还是采用收发相分离的两块天线板。The microstrip used in the vibrator microstrip planar array antenna is printed on the circuit board. It adopts the dual-microstrip orthogonal feeding method to form a dual-frequency resonance on the square radiation patch, which can realize a dual-frequency dual-polarization common-aperture flat antenna. However, the feeding efficiency of the microstrip vibrator antenna is low, it is easy to excite surface waves, the antenna bandwidth is narrow, and the carrying power is low. Due to the limitations of domestic technical conditions and manufacturing processes, common products cannot achieve the common aperture of transmission and reception, and still use two antenna boards with separate transmission and reception.

波导缝隙平面阵列天线通过波导壁上排列有序的多个缝隙将电磁波辐射到空中。波导缝隙平面阵列天线采用波导馈电，有利于减少馈电损耗，提高天线效率和承载功率。但是同一根波导上的缝隙只能支持一个极化方向，为实现双极化就必须把相互正交极化的缝隙波导交替排列在平面内，无法通过天线阵列中的天线单元真正形成双频、双极化、共口径的平面阵列天线。而这样的缝隙波导排列拉大了辐射源的间隔，更容易出现栅瓣，影响天线的性能。The waveguide slot planar array antenna radiates electromagnetic waves into the air through multiple slots arranged in an orderly manner on the waveguide wall. The waveguide slot planar array antenna uses waveguide feeding, which is beneficial to reduce feeding loss and improve antenna efficiency and carrying power. However, the slots on the same waveguide can only support one polarization direction. In order to achieve dual polarization, the slot waveguides with orthogonal polarizations must be arranged alternately in the plane. It is impossible to truly form a dual-frequency, dual-polarization, and common-aperture planar array antenna through the antenna units in the antenna array. Such a slot waveguide arrangement increases the interval between the radiation sources, making it more likely for grating lobes to appear, affecting the performance of the antenna.

发明内容Summary of the invention

为了至少解决现有技术中平面阵列卫星天线存在的不易实现双频双极化共口径的问题，本发明实施例提供了一种双频双极化共口径波导喇叭平面阵列天线，其由多个天线单元在平面上以阵列形式排列而形成；每个所述天线单元由方形波导喇叭和波导正交模耦合器组合而成。In order to at least solve the problem that it is difficult to achieve dual-frequency dual-polarization common aperture in the planar array satellite antenna in the prior art, an embodiment of the present invention provides a dual-frequency dual-polarization common aperture waveguide horn planar array antenna, which is formed by arranging multiple antenna units in an array form on a plane; each of the antenna units is composed of a square waveguide horn and a waveguide orthogonal mode coupler.

在如上所述的波导喇叭平面阵列天线中，优选地，所述方形波导喇叭为三层阶梯过渡的方形角锥喇叭，其喇叭口径的形状为方形。In the waveguide horn planar array antenna as described above, preferably, the square waveguide horn is a square pyramid horn with three-layer stepped transition, and the shape of the horn aperture is square.

在每个所述方形波导喇叭的口径上添加了十字栅条。A cross grating is added to the aperture of each of the square waveguide horns.

在如上所述的波导喇叭平面阵列天线中，优选地，所述波导正交模耦合器为纵向锥变分支结构的正交模耦合器。In the waveguide horn planar array antenna as described above, preferably, the waveguide orthogonal mode coupler is an orthogonal mode coupler with a longitudinal tapered branch structure.

在如上所述的波导喇叭平面阵列天线中，优选地，所述波导正交模耦合器的公共端口的尺寸与所述方形波导喇叭的波导端口尺寸相同。In the waveguide horn planar array antenna as described above, preferably, the size of the common port of the waveguide orthogonal mode coupler is the same as the size of the waveguide port of the square waveguide horn.

在如上所述的波导喇叭平面阵列天线中，优选地，所述平面阵列天线的天线单元排列方式为平面正方形排列。In the waveguide horn planar array antenna as described above, preferably, the antenna units of the planar array antenna are arranged in a planar square arrangement.

在如上所述的波导喇叭平面阵列天线中，优选地，所述方形波导喇叭和所述波导正交模耦合器均采用了薄壁结构，各自的壁厚为1.5-2.5mm。In the waveguide horn planar array antenna as described above, preferably, the square waveguide horn and the waveguide orthogonal mode coupler both adopt a thin-wall structure, and the wall thickness of each is 1.5-2.5 mm.

在如上所述的波导喇叭平面阵列天线中，优选地，所述平面阵列天线的的天线口面电场加权函数为泰勒分布函数。In the waveguide horn planar array antenna as described above, preferably, the antenna aperture electric field weighting function of the planar array antenna is a Taylor distribution function.

在如上所述的波导喇叭平面阵列天线中，优选地，所述方形波导喇叭、所述十字栅条和所述波导正交模耦合器均由金属材料制成。In the waveguide horn planar array antenna as described above, preferably, the square waveguide horn, the cross grid bars and the waveguide orthogonal mode coupler are all made of metal materials.

在如上所述的波导喇叭平面阵列天线中，优选地，所述波导喇叭平面阵列天线的外部轮廓尺寸长、宽、高分别为500mm、500mm、51.2mm。In the waveguide horn planar array antenna as described above, preferably, the outer dimensions of the waveguide horn planar array antenna are 500 mm in length, 500 mm in width and 51.2 mm in height, respectively.

综上所述，本发明带来的有益效果如下：In summary, the beneficial effects brought by the present invention are as follows:

在卫星应急机动通信中，本发明产品的一体化天线结构，使天线在应用中不再需要像抛物反射面天线那样进行现场拼装和分解，为快速开通卫星应急通信提供了便利。In satellite emergency mobile communications, the integrated antenna structure of the product of the present invention eliminates the need for on-site assembly and disassembly of the antenna during use, as is required for parabolic reflector antennas, thus facilitating the rapid opening of satellite emergency communications.

在平面阵列天线上实现了双频率、双极化、共口径，只需要一副天线就能满足卫星通信全双工的技术要求。Dual frequency, dual polarization and common aperture are achieved on the planar array antenna, and only one pair of antennas is needed to meet the technical requirements of full-duplex satellite communications.

通过对天线口面照射函数以泰勒分布函数进行加权处理，对旁瓣的抑制效果可以达到-22dB，远低于CCIR的要求(14dB)，也明显低于传统反射面天线的第一旁瓣指标(14～17dB)。低旁瓣天线有利于提高接收信号的信噪比，同时减少发射电波对邻星的干扰。By weighting the antenna aperture illumination function with the Taylor distribution function, the sidelobe suppression effect can reach -22dB, which is much lower than the CCIR requirement (14dB) and significantly lower than the first sidelobe index of the traditional reflector antenna (14-17dB). Low sidelobe antennas are beneficial for improving the signal-to-noise ratio of received signals and reducing the interference of transmitted radio waves to neighboring satellites.

通过在波导喇叭口上增加十字栅条的方法，提高天线口面有效辐射元的空间分布频率，从而拉大栅瓣的衍射角度，使栅瓣得到了很好地抑制。By adding cross grating bars to the waveguide horn, the spatial distribution frequency of the effective radiating elements on the antenna aperture is increased, thereby increasing the diffraction angle of the grating lobe and suppressing the grating lobe well.

波导喇叭平面阵列天线的天线单元，由方形波导喇叭和波导正交模耦合器组合而成，配以波导传输线组成的接收和发射馈电网络，整个天线全部由波导器件组成。波导器件传输插损小、承载功率大，提高了天线的整机效率。The antenna unit of the waveguide horn planar array antenna is composed of a square waveguide horn and a waveguide orthogonal mode coupler, and is equipped with a receiving and transmitting feed network composed of waveguide transmission lines. The entire antenna is composed of waveguide devices. Waveguide devices have low transmission insertion loss and high carrying power, which improves the overall efficiency of the antenna.

天线效率的提高，有利于在同等天线口径下，获得更高的天线增益，实现更高的传输数率。本发明的天线口径面积为500mm×500mm，天线效率可以达到85％以上，天线增益可等效为口径为0.7m的普通抛物反射面天线(后者的天线有效面积是前者的1.5倍)。The improvement of antenna efficiency is conducive to obtaining higher antenna gain and achieving higher transmission rate under the same antenna caliber. The antenna caliber area of the present invention is 500mm×500mm, the antenna efficiency can reach more than 85%, and the antenna gain can be equivalent to that of an ordinary parabolic reflector antenna with a caliber of 0.7m (the latter's antenna effective area is 1.5 times that of the former).

方形波导喇叭和波导正交模耦合器的锥变波导段均采用阶梯过渡的方式。阶梯过渡方式的过渡段长度短、结构紧凑、薄壁结构，有利于减少天线的整体尺寸和重量。The tapered waveguide sections of the square waveguide horn and the waveguide orthogonal mode coupler both adopt a step transition method. The step transition method has a short transition section, a compact structure, and a thin-walled structure, which is beneficial to reducing the overall size and weight of the antenna.

低旁瓣和承载功率大的特点，有助于天线与大功率放大器配套使用，满足卫星通信高速业务传输需要。The characteristics of low side lobes and high carrying power make it possible for the antenna to be used in conjunction with a high-power amplifier to meet the needs of high-speed satellite communication business transmission.

附图说明BRIEF DESCRIPTION OF THE DRAWINGS

图1为本发明实施例提供的一种方形波导喇叭的立体结构示意图；FIG1 is a schematic diagram of a three-dimensional structure of a square waveguide speaker provided by an embodiment of the present invention;

图2为本发明实施例提供的一种正交模耦合器的立体结构示意图；FIG2 is a schematic diagram of the three-dimensional structure of an orthogonal mode coupler provided in an embodiment of the present invention;

图3为本发明实施例提供的一种天线单元的波导外部立体结构示意图(喇叭口未带金属十字栅条)；FIG3 is a schematic diagram of the external three-dimensional structure of a waveguide of an antenna unit provided in an embodiment of the present invention (the horn mouth does not have a metal cross grid);

图4为图发明实施例提供的一种天线单元的波导内部立体结构示意图(喇叭口未带金属十字栅条)；FIG4 is a schematic diagram of the internal three-dimensional structure of a waveguide of an antenna unit provided in an embodiment of the present invention (the horn mouth does not have a metal cross grid);

图5为本发明实施例提供的另一种天线单元(喇叭口带金属十字栅条)的立体结构示意图；FIG5 is a schematic diagram of the three-dimensional structure of another antenna unit (a trumpet mouth with metal cross bars) provided in an embodiment of the present invention;

图6为本发明实施例提供的一种双频双极化共口径波导喇叭平面阵列天线的平面结构正面示意图；FIG6 is a front view schematic diagram of a planar structure of a dual-frequency dual-polarization common-aperture waveguide horn planar array antenna provided by an embodiment of the present invention;

图7为本发明实施例提供的一种双频双极化共口径波导喇叭平面阵列天线的平面结构斜侧面示意图；FIG7 is a schematic diagram of an oblique side view of a planar structure of a dual-frequency dual-polarization common-aperture waveguide horn planar array antenna provided by an embodiment of the present invention;

其中，图中符号说明如下：The symbols in the figure are explained as follows:

1天线单元、3双频双极化共口径波导喇叭平面阵列天线、11方形波导喇叭、12波导正交模耦合器、120公共端口、121直通端口、122耦合分支端口、201金属十字栅条。1 antenna unit, 3 dual-frequency dual-polarization common-aperture waveguide horn planar array antennas, 11 square waveguide horns, 12 waveguide orthogonal mode couplers, 120 common ports, 121 through ports, 122 coupled branch ports, and 201 metal cross bars.

具体实施方式DETAILED DESCRIPTION

下面结合附图和具体实施方式对本发明做进一步详细说明。The present invention is further described in detail below with reference to the accompanying drawings and specific embodiments.

参见图1～图7，本发明实施例提供了一种双频双极化共口径波导喇叭平面阵列天线，其由多个天线单元1在平面上以阵列形式排列而形成。每个天线单元1包括：方形波导喇叭11和波导正交模耦合器12，由方形波导喇叭11和波导正交模耦合器12组合在一起，形成天线单元1。1 to 7 , an embodiment of the present invention provides a dual-frequency dual-polarization common-aperture waveguide horn planar array antenna, which is formed by arranging a plurality of antenna units 1 in an array on a plane. Each antenna unit 1 includes: a square waveguide horn 11 and a waveguide orthogonal mode coupler 12, and the square waveguide horn 11 and the waveguide orthogonal mode coupler 12 are combined together to form an antenna unit 1.

方形波导喇叭11的口径形状为方形，即喇叭的四个边长相等。在方形喇叭中可以激励两个相互垂直的线性极化波，以此满足双频双极化的要求。The aperture shape of the square waveguide horn 11 is a square, that is, the four sides of the horn are equal in length. Two mutually perpendicular linear polarized waves can be excited in the square horn, thereby meeting the requirements of dual-frequency dual polarization.

在Ku波段卫星通信中，收发频段相隔2GHz，为展宽频段改善阻抗匹配，使该波导喇叭在接收和发射频段内都具有良好的阻抗匹配，方形波导喇叭11的开口没有采用渐变过渡的方式，而是采用了阶梯过渡的方式。本发明阵列天线中的方形波导喇叭11是一个三层阶梯过渡的方形角锥喇叭。In Ku-band satellite communications, the receiving and transmitting frequency bands are separated by 2 GHz. To widen the frequency band and improve impedance matching, the waveguide horn has good impedance matching in both the receiving and transmitting frequency bands. The opening of the square waveguide horn 11 does not adopt a gradual transition method, but a step transition method. The square waveguide horn 11 in the array antenna of the present invention is a three-layer stepped transition square pyramid horn.

方形波导喇叭11是本平面阵列天线的基本辐射体。The square waveguide horn 11 is the basic radiator of the planar array antenna.

波导正交模耦合器12用来分离方形波导喇叭11中的两个正交极化波，它是卫星通信天线中用来分离收/发信号(即收信号和发信号)的重要微波器件。本发明采用的波导正交模耦合器12是一种基于纵向锥变分支结构的波导正交模耦合器，它的公共端口120为方形波导端口，尺寸与方形波导喇叭11末端(图1中右端)的波导端口相同。这样，波导正交模耦合器12可以与方形波导喇叭11直接组合相接，不需要再添加过渡段。The waveguide orthogonal mode coupler 12 is used to separate the two orthogonal polarized waves in the square waveguide horn 11. It is an important microwave device used to separate the receiving/transmitting signals (i.e., receiving signals and transmitting signals) in the satellite communication antenna. The waveguide orthogonal mode coupler 12 used in the present invention is a waveguide orthogonal mode coupler based on a longitudinal tapered branch structure. Its common port 120 is a square waveguide port, and its size is the same as the waveguide port at the end (right end in Figure 1) of the square waveguide horn 11. In this way, the waveguide orthogonal mode coupler 12 can be directly combined and connected with the square waveguide horn 11 without adding a transition section.

从方形波导喇叭11进入波导正交模耦合器12的垂直极化波TE10可以通过锥变波导段，由波导正交模耦合器12的直通端口121输出。对于正交的水平极化波TE01，锥变波导段对它形成短路并且被反射，使其无法从直通端口121通过。它只能经由耦合分支窗口122被耦合到分支波导中。本发明中的锥变波导段采用了三级阶梯完成过渡。The vertical polarized wave TE10 entering the waveguide orthogonal mode coupler 12 from the square waveguide horn 11 can pass through the tapered waveguide section and be output from the through port 121 of the waveguide orthogonal mode coupler 12. For the orthogonal horizontal polarized wave TE01, the tapered waveguide section forms a short circuit for it and is reflected, so that it cannot pass through the through port 121. It can only be coupled to the branch waveguide through the coupling branch window 122. The tapered waveguide section in the present invention uses three steps to complete the transition.

波导正交模耦合器12是本平面阵列天线的基本耦合体。The waveguide orthogonal mode coupler 12 is the basic coupling body of the planar array antenna.

将天线单元1排列在一个平面内，便组成了波导喇叭平面阵列天线的辐射面和耦合面。Arranging the antenna units 1 in a plane forms the radiation surface and coupling surface of the waveguide horn planar array antenna.

为方便并联馈电，该波导喇叭平面阵列天线以方形阵列形式排列，即多个天线单元排列成一个方形阵列。下面以16×16个天线单元组成的方形阵列为例，对排列过程进行说明。To facilitate parallel feeding, the waveguide horn planar array antenna is arranged in a square array, that is, multiple antenna units are arranged into a square array. The following takes a square array composed of 16×16 antenna units as an example to illustrate the arrangement process.

先以4个天线单元组成2×2元的天线基本阵列，再以4个2×2元的天线基本阵列组成一个4×4元的天线阵列，然后以4个4×4元的天线阵列组成一个8×8元的天线阵列，最后，以4个8×8元天线阵列组成16×16元平面阵列天线3，如图6-7所示。在其他的实施例中，还可以采用其他组成阵方式，本实施例对此不进行限定。First, four antenna units are used to form a 2×2 element antenna basic array, and then four 2×2 element antenna basic arrays are used to form a 4×4 element antenna array, and then four 4×4 element antenna arrays are used to form an 8×8 element antenna array, and finally, four 8×8 element antenna arrays are used to form a 16×16 element planar array antenna 3, as shown in Figures 6-7. In other embodiments, other array formation methods can also be used, which are not limited in this embodiment.

通过调整天线口面照射函数(天线面电场分布函数)，可以很好地抑制天线的旁瓣。本发明产品采用泰勒分布函数进行加权处理，使天线面中央区的口面照射幅度略高于边缘区域的照射幅度，使天线旁瓣得到了很好的抑制。By adjusting the antenna aperture illumination function (antenna surface electric field distribution function), the antenna side lobe can be well suppressed. The product of the present invention uses Taylor distribution function for weighted processing, so that the aperture illumination amplitude in the central area of the antenna surface is slightly higher than the illumination amplitude in the edge area, so that the antenna side lobe is well suppressed.

平面阵列天线的一个固有缺点是产生栅瓣。为将栅瓣远离天线主波束，方形波导喇叭在排列组阵时需要紧密相靠，即尽量减少辐射单元(即方形波导喇叭)之间的间隔。因此，本发明产品在方形波导喇叭等微波器件设计时均采用了薄壁结构，以最大限度地减少方形波导喇叭之间的中心间距，同时也减轻了天线的重量。天线单元1在排列组阵时，为使各天线单元紧密相靠，减少各天线单元之间的间隔，方形波导喇叭和其他微波器件均采用了薄壁结构设计，壁厚1.5-2.5mm。An inherent disadvantage of planar array antennas is the generation of grating lobes. In order to keep the grating lobes away from the main beam of the antenna, the square waveguide horns need to be closely aligned when arranged in an array, that is, the spacing between the radiating units (i.e., square waveguide horns) should be minimized. Therefore, the product of the present invention adopts a thin-walled structure when designing microwave devices such as square waveguide horns to minimize the center spacing between the square waveguide horns, while also reducing the weight of the antenna. When the antenna unit 1 is arranged in an array, in order to make the antenna units closely aligned and reduce the spacing between the antenna units, the square waveguide horns and other microwave devices adopt a thin-walled structure design with a wall thickness of 1.5-2.5mm.

为进一步改善天线的栅瓣指标，天线口面上又覆盖了一层栅格面，通过提高天线口面有效辐射元的空间分布频率，使电磁波衍射干涉后形成的栅瓣成份进一步远离主波束，从而起到对栅瓣的有效抑制作用。In order to further improve the grating lobe index of the antenna, a layer of grid surface is covered on the antenna aperture. By increasing the spatial distribution frequency of the effective radiating elements on the antenna aperture, the grating lobe components formed after the diffraction interference of the electromagnetic waves are further away from the main beam, thereby effectively suppressing the grating lobe.

天线口面上的栅格面的覆盖是通过在每一个喇叭口面上添加金属十字栅条201实现的，即十字栅条由金属材料制成，如图5所示。所以，本发明的波导喇叭平面阵列天线所采用的天线单元1均带有十字栅条，该栅条宽度1.5mm。The coverage of the grid surface on the antenna mouth surface is achieved by adding metal cross bars 201 on each horn mouth surface, that is, the cross bars are made of metal material, as shown in Figure 5. Therefore, the antenna unit 1 used in the waveguide horn planar array antenna of the present invention is provided with cross bars, and the width of the bars is 1.5 mm.

方形波导喇叭11和波导正交模耦合器12均由金属材料制成，图4所示的天线单元为未带有十字栅条的天线单元，此时可将其称为第一天线单元，图5所示的天线单元为带有十字栅条的天线单元，此时可将其称为第二天线单元。波导喇叭平面阵列天线的外部轮廓尺寸为500×500×51.2mm，前述三个尺寸值分别对应长、宽、高的尺寸。The square waveguide horn 11 and the waveguide orthogonal mode coupler 12 are both made of metal materials. The antenna unit shown in FIG4 is an antenna unit without a cross bar, which can be referred to as the first antenna unit. The antenna unit shown in FIG5 is an antenna unit with a cross bar, which can be referred to as the second antenna unit. The outer dimensions of the waveguide horn planar array antenna are 500×500×51.2 mm, and the above three dimensions correspond to the length, width, and height, respectively.

综上所述，本发明带来的有益效果如下：In summary, the beneficial effects brought by the present invention are as follows:

采用天线单元1制成的波导喇叭平面阵列天线，实现了双频率、双极化、共口径的特点，可以在同一副平面阵列天线上实现全双工卫星通信，克服了微带振子平面阵列天线和波导缝隙平面阵列天线的固有缺点和不足。The waveguide horn planar array antenna made of antenna unit 1 realizes the characteristics of dual frequency, dual polarization and common aperture, and can realize full-duplex satellite communication on the same planar array antenna, overcoming the inherent disadvantages and shortcomings of microstrip dipole planar array antenna and waveguide slot planar array antenna.

通过对天线口面照射函数进行泰勒分布加权处理，对平面阵列天线的旁瓣抑制可以达到-22dB，远低于CCIR的要求(14dB)，也明显低于传统反射面天线的第一旁瓣指标(14～17dB)。低旁瓣天线有利于提高接收信号的信噪比，同时减少发射电波对邻星的干扰。By performing Taylor distribution weighted processing on the antenna aperture illumination function, the sidelobe suppression of the planar array antenna can reach -22dB, which is much lower than the CCIR requirement (14dB) and significantly lower than the first sidelobe index of the traditional reflector antenna (14-17dB). Low sidelobe antennas are beneficial for improving the signal-to-noise ratio of received signals and reducing the interference of transmitted radio waves to neighboring satellites.

通过在波导喇叭口上增加十字栅条的方法，提高天线口面有效辐射元的空间分布频率，从而拉大栅瓣的衍射角度。测试结果表明，在主波束±60°的范围内，栅瓣得到了很好地抑制。By adding cross gratings to the waveguide horn, the spatial distribution frequency of the effective radiating elements on the antenna aperture is increased, thereby increasing the diffraction angle of the grating lobe. Test results show that within the range of ±60° of the main beam, the grating lobe is well suppressed.

方形角锥波导喇叭11和波导正交模耦合器12的锥变波导段均采用阶梯过渡的方式。阶梯过渡方式的过渡段长度短，结构紧凑，有利于减少天线的整体尺寸和重量。The tapered waveguide sections of the square pyramid waveguide horn 11 and the waveguide orthogonal mode coupler 12 both adopt a step transition method. The step transition method has a short transition section and a compact structure, which is beneficial to reducing the overall size and weight of the antenna.

波导喇叭平面阵列天线的辐射面和耦合面均由波导微波器件组成，配以波导传输线组成的接收和发射馈电网络，整个天线全部由波导器件组成。The radiation surface and coupling surface of the waveguide horn planar array antenna are both composed of waveguide microwave devices, equipped with a receiving and transmitting feeding network composed of waveguide transmission lines. The entire antenna is composed entirely of waveguide devices.

波导器件传输插损小、承载功率大，提高了天线的整机效率，可与大功率放大器配套使用，满足卫星通信高速业务传输需要。Waveguide devices have low transmission insertion loss and high carrying power, which improves the overall efficiency of the antenna. They can be used in conjunction with high-power amplifiers to meet the needs of high-speed satellite communication business transmission.

由技术常识可知，本发明可以通过其它的不脱离其精神实质或必要特征的实施方案来实现。因此，上述公开的实施方案，就各方面而言，都只是举例说明，并不是仅有的。所有在本发明范围内或在等同于本发明的范围内的改变均被本发明包含。It is known from common technical knowledge that the present invention can be implemented by other embodiments that do not deviate from its spirit or essential features. Therefore, the above disclosed embodiments are only illustrative in all respects and are not exclusive. All changes within the scope of the present invention or within the scope equivalent to the present invention are included in the present invention.

Claims (4)

Translated fromChinese

1.一种双频双极化共口径波导喇叭平面阵列天线，其特征在于，所述波导喇叭平面阵列天线由多个天线单元在平面上以阵列形式排列而形成；每个所述天线单元由方形波导喇叭和波导正交模耦合器组合而成；1. A dual-frequency dual-polarization common-aperture waveguide horn planar array antenna, characterized in that the waveguide horn planar array antenna is formed by arranging a plurality of antenna units in an array form on a plane; each of the antenna units is composed of a square waveguide horn and a waveguide orthogonal mode coupler;所述方形波导喇叭为三层阶梯过渡的方形角锥喇叭；The square waveguide horn is a square pyramid horn with three-layer stepped transition;在每个所述方形波导喇叭的口径上添加了十字栅条；Adding cross bars to the aperture of each of the square waveguide horns;所述波导正交模耦合器的公共端口的尺寸与所述方形波导喇叭的波导端口尺寸相同；The size of the common port of the waveguide orthogonal mode coupler is the same as the size of the waveguide port of the square waveguide horn;所述方形波导喇叭和所述波导正交模耦合器均采用了薄壁结构，各自的壁厚为1.5-2.5mm；The square waveguide horn and the waveguide orthogonal mode coupler both adopt thin-wall structures, and the wall thickness of each is 1.5-2.5 mm;所述平面阵列天线的天线口面电场加权函数为泰勒分布函数；The antenna aperture electric field weighting function of the planar array antenna is a Taylor distribution function;所述波导正交模耦合器为纵向锥变分支结构的正交模耦合器，所述波导正交模耦合器的锥变波导段采用阶梯过渡的方式；The waveguide orthogonal mode coupler is an orthogonal mode coupler with a longitudinal tapered branch structure, and the tapered waveguide section of the waveguide orthogonal mode coupler adopts a step transition method;所述波导正交模耦合器包括公共端口、直通端口和耦合分支窗口，沿第一方向，所述波导正交模耦合器具有两个相平行的第一平面，其中一个所述第一平面构成所述公共端口，另一个所述第一平面构成所述直通端口；The waveguide orthogonal mode coupler comprises a common port, a through port and a coupling branch window. Along a first direction, the waveguide orthogonal mode coupler has two parallel first planes, one of which constitutes the common port, and the other of which constitutes the through port.沿第二方向，所述波导正交模耦合器具有两个相对的呈阶梯状的台阶连续面，所述台阶连续面包括依次相连的第一面、第二面、第三面、第四面和第五面，所述第一面和所述公共端口相连，所述耦合分支窗口耦合于所述第一面、所述第二面以及所述第三面上，所述耦合分支窗口沿第一方向的两端分别形成有一个台阶槽；Along the second direction, the waveguide orthogonal mode coupler has two opposite step-shaped continuous surfaces, the step-shaped continuous surfaces include a first surface, a second surface, a third surface, a fourth surface and a fifth surface connected in sequence, the first surface is connected to the common port, the coupling branch window is coupled to the first surface, the second surface and the third surface, and a step groove is formed at both ends of the coupling branch window along the first direction;沿第三方向，所述波导正交模耦合器具有两个相平行的第二平面；Along the third direction, the waveguide orthogonal mode coupler has two parallel second planes;所述第一方向、第二方向和第三方向相互垂直。The first direction, the second direction and the third direction are perpendicular to each other.2.根据权利要求1所述的波导喇叭平面阵列天线，其特征在于，所述平面阵列天线的天线单元排列方式为平面正方形排列。2. The waveguide horn planar array antenna according to claim 1 is characterized in that the antenna units of the planar array antenna are arranged in a planar square arrangement.3.根据权利要求1所述的波导喇叭平面阵列天线，其特征在于，所述方形波导喇叭、所述十字栅条和所述波导正交模耦合器均由金属材料制成。3. The waveguide horn planar array antenna according to claim 1, characterized in that the square waveguide horn, the cross grid bar and the waveguide orthogonal mode coupler are all made of metal materials.4.根据权利要求1所述的波导喇叭平面阵列天线，其特征在于，所述波导喇叭平面阵列天线的外部轮廓尺寸长、宽、高分别为500mm、500mm、51.2mm。4. The waveguide horn planar array antenna according to claim 1 is characterized in that the outer dimensions of the waveguide horn planar array antenna are 500 mm in length, 500 mm in width, and 51.2 mm in height, respectively.