科普天线知识
https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=9f1b734bdebe8048b60d21f65ca98436&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F706dabacd55c89353622de6de84eb761.jpeg话说,自从1894年老毛子科学家波波夫成功发明了天线之后,这玩意迄今已有124年的历史(数了3遍,应该没错)。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=9b492e0085e04df7a690e54ccff058cd&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F3df89f7390241a32e17e5354745b46a5.jpeg波波夫和他的发明在这漫长的历史长河之中,它对人类社会发展和进步做出了卓绝的贡献。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=648e941db076d06cc49ecf430b4fe68f&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Fa3922c3c5e8ecae66f289afb1864e293.jpeg二战中屡立奇功的英国雷达天线如今,不管是老百姓日常工作生活,还是科学家进行科研探索,都离不开天线君的默默奉献。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=70fba106f013c8e344c8c75c8e86d786&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Fadfc2f40cb1e1470a7c3e8de508220dd.jpeg天线究竟是一根什么样的“线”,为什么会如此彻底地改变我们的生活?https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=56325b8f5ca51926a9986c4d05060ed7&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F15a84b0ca0d4521be0cc07764fbf81a2.jpeg其实,天线之所以牛逼,就是因为电磁波牛逼。电磁波之所以牛逼,一个主要原因就是,它是唯一能够不依赖任何介质进行传播的“神秘力量”。即使在真空中,它也能来去自如,而且转瞬即至。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=f665de29bc54051f1550922f19d24749&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Fe55fa6b7e148b4f3613e539923650d6f.jpeg电磁波效果图https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=1118c44dd5bf8d6e95b16b36ad27140c&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Ff36855a0483dd0e6297a7ba8a4de5537.gif电磁波传播示意图想要充分利用这股“神秘力量”,你就需要天线。在无线电设备中,天线就是用来辐射和接收无线电波的装置。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=2782a515462dc3e6d92a5ac099cb68d1&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F3059d6dc30eba9d0c1ed3715eb076df0.jpeg天线的英文名:Antenna(也有触须、直觉之意)再通俗点,天线就是一个“转换器”——把传输线上传播的导行波,变换成在自由空间中传播的电磁波,或者进行相反的变换。https://timg01.bdimg.com/timg?pa&imgType=3&sec=1439619614&di=8a36a64eb02f7468b610ea42124e09f7&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F5951ddc76d7183fc06b7de230d085194.pnghttps://timg01.bdimg.com/timg?pa&imgType=3&sec=1439619614&di=c237d51a5d208ab84b6924a66151a29e&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Fad56f0264d699e980bbaa7ee0fcd8ba5.png天线的作用什么叫导行波?简单来说,导行波就是一种电线上的电磁波。天线是怎么实现导行波和空间波之间转换的呢?看下图:https://timg01.bdimg.com/timg?pa&imgType=3&sec=1439619614&di=06e9fb3e9d8795a65b05c5dcdc99c810&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F9a2965512da076653c966dffe14a3f2c.png中学物理学过,两根平行导线,有交变电流时,就会形成电磁波辐射。两根导线很近时,辐射很微弱(导线电流方向相反,产生的感应电动势几乎抵消)。两根导线张开,辐射就会增强(导线电流方向相同,产生的感应电动势方向相同)。https://timg01.bdimg.com/timg?pa&imgType=3&sec=1439619614&di=9ea80eceb0b567091ebf589d3fdb6a78&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Fe70bfb09309b1a816776033e1865c3b6.png当导线的长度增大到波长的1/4时,就能形成较为的辐射效果!https://timg01.bdimg.com/timg?pa&imgType=3&sec=1439619614&di=3e96c37411d0ed342af3dd601b551ed4&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F50cc9fe03d3d83787518704a4e912090.png有了电场,就有了磁场,有了磁场,就有了电场,如此循环,就有了电磁场和电磁波。。。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=d1418c6030c1d4be0791325601392fa9&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Fd5d051f8bf5ae17039979c791e9e2d31.gif电生磁,磁生电再来个动图,大家感受一下这个优美的过程:https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=4bdc418136b69f5608d8ad077a871979&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Fe22805c980f587c0c19dd4da3d122294.gif导线电流方向的变化,产生了变化的电场产生电场的这两根直导线,就叫做振子。通常两臂长度相同,所以叫对称振子。长度像下面这样的,叫半波对称振子。https://timg01.bdimg.com/timg?pa&imgType=3&sec=1439619614&di=1789a1e2816d91034395ab2662aa37e7&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F3d36323b6cbd1db06733bbfffa803bf3.png半波对称振子把导线两头连起来,就变成了半波对称折合振子。https://timg01.bdimg.com/timg?pa&imgType=3&sec=1439619614&di=2b3ab940834030eff82ae82777d6d441&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Ff9587b1abc8dd9d765606552164bb642.png半波对称折合振子有点像刷墙的油漆刷子。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=f1998dccfcf5df4cc9adeb99152c2e60&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Fb5edeff4c0aa6065b86bbcf727cdeb4a.jpeg对称振子是迄今最为经典,使用最为广泛的天线。理论还是有点枯燥啊,赶紧的,我们来结合一下实物。真实世界中的振子,是个什么样?Duang!就是这样——https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=e45081976c0dbc1302aa3983c800f2e5&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Fef4084c998f99c37de28b399c074adef.jpeg就是这么个金属片。。。半波对称振子(非折合)好吧,其实上面这个只是振子的一个传统形态,它还有N种变(身)态:https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=9ef423a92b87ca717ef6f30167b31456&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Fdff088e9610f4a972232219ecf3324d6.jpeg造型怪异的振子懵逼了吧?如果说振子就是天线,那这哪里是天线嘛?我们现实生活中看到的天线不是这个鸟样啊?放心!作为一个百年一遇的良心公众号,鲜枣课堂骗天骗地都不敢骗各位粉丝爸爸!确切地说,振子不是一个完整的天线。振子是天线的核心部件,形态会随天线的形态变化而变化。而天线的形态,实在是太TM多了。。。多了。。。了。。。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=678cad2dd1ae55d3bb4e89968da32a24&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F6d9403e2565d27e3d7e9e49908225549.jpeg总而言之,成百上千。。。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=d8e520ecda0b9b1180cae1c66bcd44ff&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Fa8744ba6d6e02c1f2a97eedd08dc6389.jpeg虽然天线的形态千奇百怪,但是根据相似度,也可以进行大致归类。按波长分:中波天线、短波天线、超短波天线、微波天线...按性能分:高增益天线、中增益天线...按指向分:全向天线、定向天线、扇区天线...按用途分:基站天线、电视天线、雷达天线、电台天线...按结构分:线天线、面天线...按系统类型分:单元天线、天线阵...……如果按照外型来分,常见的几种,如下图:https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=ea72084b766422b02fdbd738ed621576&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Ff830c15c849cdfc30187cd0a767ca74d.jpeg鞭状天线https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=607ffa143d0075fea4e8206b1bbba831&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Fa44997312e45dd5ec7d99b9e01bffc95.jpeg抛物面天线https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=63dfa63d8af491bb523c212bb4fc727a&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Fd9c77df6eada3b7c40cfc0b64ee0d074.jpeg八木天线PS:八木天线并不是八根木头,虽然我数学不好,但是八我还是数得来的。之所以叫八木,是因为它是二十世纪20年代日本人八木秀次和宇田太郞发明的,叫“八木宇田天线”,简称“八木天线”(可怜的宇田)。我们通信汪最关心的,当然是——通信基站天线!https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=f239c957c5323404ec814e3de986305e&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Fc8530a6e9ab57ae9b08f0559512c915e.jpeg基站天线,是基站天馈系统的组成部分,也是移动通信系统的重要组成部分。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=d44f2620943868a09bbb4228f91aa432&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F45e0f948e0947c91ca18351a56dcefda.jpeg基站天线一般分为室内天线和室外天线。室内天线通常包括全向吸顶天线和定向壁挂天线等。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=bd426ccda0f839717992722d30e09a2a&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F2f44afe96a28d989eb38e96b65cedd08.jpeg我们重点说说室外的。室外基站天线也分为全向的和定向的。定向天线再细分为定向单极化天线和定向双极化天线。什么是极化?别急,我们待会再说。我们先说说全向和定向。其实顾名思义,全向天线就是向四周发射和接收信号的,而定向天线,是向指定方向。室外全向天线,是这样的:https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=8b5ade5e843ee6d21b0a5d24921201c7&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F09b5b9e3499b3aff3f854d0cf9039bb0.jpeg就是一根棒子,有粗的,也有细的。它里面的振子,是这样的:https://timg01.bdimg.com/timg?pa&imgType=3&sec=1439619614&di=90bbc2d7fbaec4c2db6c38aaecada5d0&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Fd3e2c59c50c91d455153b35b7120cc0e.png相比全向天线,现实工作生活中,定向天线使用最为广泛。它大部分时候看上去就是一个板子,所以叫板状天线。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=34d56f56d4cd5eef79d5ab5b2c2a01c6&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Fe03c5a4866a2e0f4aaabae0475b77d63.jpeg板状天线,主要由以下部分组成:辐射单元(振子)反射板(底板)功率分配网络(馈电网络)封装防护(天线罩)https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=ead22cb6bf7bde05ede3a674ddadfb74&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Fcc06febb45e236504b8a359210fc7500.jpeg之前我们看到那些奇怪形状的振子,其实都是基站天线的振子。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=0b1bc27af1191ecd26bb2308998396b2&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Ff1d3e623c19d768b399d2f0d8bace2a1.jpeg大家注意到没,这些振子的角度,有一定的规律:要么是“+”,要么是“×”。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=5baa22618092cc45904c2e23144a8a73&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F3cd0b180bab51b71b753823a0b1fd855.jpeg嗯,这就是前面我们提到的“极化”。无线电波在空间传播时,其电场方向是按一定的规律而变化的,这种现象称为无线电波的极化。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=60a0762e96705b99b1ad84b4e1e8851e&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F0da2aa14c1b8814816d35ec9d888b1d7.gif如果电波的电场方向垂直于地面,我们称它为垂直极化波。同理,平行于地面,就是水平极化波。另外,还有±45°的极化。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=83590c5f92206afc618447f4528f244a&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F86a66519ef3fd09337d59f8a70b6f555.jpeg不仅如此,电场的方向还可以是螺旋旋转的,叫椭圆极化波。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=2d2d488a72a5496da573b78c0af0b6d6&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F27452f4ca6c4b3068f43158e347700e7.gif双极化,就是2个天线振子在一个单元内,形成两个独立波。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=164b65d0dc6e6c94aed670e9417dc71b&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F86b33343a3a885184973f9ccac1d5219.jpeg采用双极化天线,可以在小区覆盖时减少天线的数量,降低天线架设的条件要求,进而减少投资,还能保证覆盖效果。总之,就是好处多多。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=1426274e672accd07312b3a75355ae94&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F54e9961f3f9980dd7f72079184d504c2.jpeg密集恐惧症又犯了。。。我们继续前面全向和定向天线的话题。为什么定向天线可以控制信号的辐射方向呢?我们先来看个图:https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=7986f515ae019d59f770a254739ee364&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Fb12bbf4bcfd7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。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=aa1476f02083e4742551bbea8c4a8473&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2Ffef5d886c66eff97c1d1ac365a80d8cc.jpeg这肯定不行啊,影响了信号覆盖。于是,我们采用了另外一种办法,就是电调下倾,简称电下倾。简而言之,电下倾就是保持天线本体的物理角度不变,通过调整天线的振子相位,改变场强强度。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=793dea3397c92688ec47351ce6bd16ef&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F2051cdcf672619e6a3dad1d080c5ab25.jpeg来个动图,就看明白了:https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=5935180d72c0fb64320f467b8ba3b46a&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F727eef4a67163e918e330263efd08fb1.gif相比于机械下倾,电下倾的天线方向图变化不大,下倾度数更大,而且,前瓣和后瓣都朝下。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=dc45939b8aa7bbad2058111f75d68b30&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F29aa67e53d4e40f4a4e9d6d6b9ab783d.jpeg当然啦,在实际使用中,经常会机械下倾和电调下倾配合使用。下倾之后,就变成了这样——https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=8afe50823b312691f7406e0ec0209641&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F1a6224094db19d4fb0e34816ee9ec434.jpeg在这种情况下,天线的主要辐射范围,得到了较充分的利用。但是,还是有问题存在的:1 主瓣和下旁瓣之间,有一个下部零深,会造成这个位置的信号盲区。通常,我们称之为“灯下黑”。2 上旁瓣的角度较高,影响距离较远,很容易造成越区干扰,也就是说,信号会影响到别的小区。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=1aaec7971daee5fa034fd4ae29624971&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F3159433ce8f8c52a413526b1110fd2b0.jpeg所以,我们必须努力填补“下部零深”的空缺,压制“上旁瓣”的强度。具体的办法,就是调节旁瓣的电平,采用波束赋形等手段,里面的技术细节就有点复杂了。大家感兴趣的话,可以自行搜索相关资料。这里面的学问,真的很深,所以,无数的天线专家都在钻研这方面的课题,不断地研发、测试。https://timg01.bdimg.com/timg?pa&imgType=0&sec=1439619614&di=a23eaa76b13ee5f6b17b57b2cf3e47cb&quality=100&size=b980_10000&src=http%3A%2F%2Fpic.rmb.bdstatic.com%2F467e840fed7919929b4cdb1c2ddd138d.jpeg上图为天线测试暗室一款优秀的天线,离不开良好的工艺,可靠的材料,还有不断的测试。好啦,文章写到这里,就该结束啦!能看到这里的,绝对都是真爱啊!实际上,天线的知识还有很多,远不止本文所述。限于篇幅,今天还是先到这里吧。总之,天线确实是一门精深的学问,远比大家想象得复杂。而且,目前也处于高速发展的阶段,还有很大的潜力可以挖掘。尤其是即将到来的5G,天线技术革新是其中的重中之重,各大设备厂家一定会在5G天线上全力以赴,做足文章。到时候会有什么样的天线黑科技出现?让我们拭目以待吧! ,形象易懂 写的好,学习了!
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