1、无线电基础知识课件

Repeaters – what are they and how to use themMore hams use frequency-modulated (FM) voice than any other communications mode. Most hams have an FM rig of some type. They use it to keep in touch with their local friends. Hams often pass the time during their morning and evening commute talking on the air. In most communities, amateurs interested in a specialized topic (such as chasing DX) have an FM frequency where they meet regularly to exchange information. At flea markets and conventions, hand-held FM units are in abundance as hams compare notes on the latest bargain.Generally, it's a good idea to use VHF or UHF for all local communications. The HF bands should be reserved for longer-distance contacts to reduce interference on the HF bands.VHF and UHF FM voice operation takes two forms: simplex and repeater. Simplex operation means the stations are talking to each other directly, on the same frequency. This is similar to making a contact on the HF bands.FM voice operation is well-suited to local VHF/UHF radio communication because the audio signal from an FM receiver is not affected by static-type electrical noise. Car engines and ignition systems produce quite a bit of static electrical noise, and many hams like to operate their FM radios while they are driving or riding in a car. (This is called mobile operation.) An AM or SSB receiver is affected much more by static-type electrical noise.The communications range for VHF and UHF FM simplex is usually limited to your local area (5-15 miles). If you live high on a mountain and use a high-gain directional antenna, you may be able to extend your range considerably. Unfortunately, most of us do not have the luxury of ideal VHF/UHF operating conditions. Often, we want to make contacts even though we live in a valley, are driving in a car or are using a low-power, hand-held transceiver.Enter repeaters. A repeater receives a signal and re-transmits it, usually with higher power and from a better location, to provide a greater communications range. Often located atop a tall building or high mountain, VHF and UHF repeaters greatly extend the operating range of amateurs using mobile and hand-held transceivers. If a repeater serves an area, it's not necessary for everyone to live on a hilltop. You only have to be able to hear the repeater's transmitter and reach the repeater's receiver with your transmitted signal.A repeater receives a signal on one frequency and simultaneously retransmits (repeats) it on another frequency. The frequency it receives on is called the input frequency, and the frequency it transmits on is called the output frequency.To use a repeater, you must have a transceiver that can transmit on the repeater's input frequency and receive on the repeater's output frequency. The input and output frequencies are separated by a predetermined amount that is different for each band. This separation is called the offset. For example, the offset on 1.25 meters is 1.6 MHz. A repeater on 1.25 meters might have its input frequency on 222.32 MHz and its output on 223.92 MHz. Repeater frequencies are often specified in terms of the output frequency (the frequency you set your receiver to listen on) and the offset. Your transmitter operates on a frequency that is different from the receive frequency by the offset amount.Most transceivers designed for FM repeater operation are set up for the correct offset. They usually have a switch to change between simplex operation (transmit and receive on the same frequency) and duplex operation (transmit and receive on different frequencies). So, if you wanted to use the repeater in the preceding example, you would switch your transceiver to the duplex mode and dial up 223.92 to listen to the repeater. When you transmit, your rig will automatically switch to 222.32 MHz (1.6 MHz lower in frequency), the repeater input frequency.When you have the correct frequency dialed in, just key your microphone button to transmit through ("access") the repeater. Most repeaters are open -- that is, available for use by anyone in range. Some repeaters, however, have limited access. Their use is restricted to exclusive groups, such as members of a club. Such closed repeaters require the transmission of a continuous subaudible tone or a short "burst" of tones for access. These are called CTCSS (continuous tone-coded squelch system) or PL (Private Line PL is a Motorola trademark) tones. There are also some repeaters available for use by everyone that require the use of special codes or subaudible tones to gain access. The reason for requiring access tones for "open" repeaters is to prevent interference from extraneous transmissions that might accidentally key the repeater. If you wish to join a group that sponsors a closed repeater, contact the repeater control operator.Finding a RepeaterMost communities in the United States are served by repeaters. While the majority of repeaters (over 6000) are on 2 meters, there are more than 1600 repeaters on 222 MHz, more than 5000 on 440 MHz, over 70 on 902 MHz and more than 200 on 1270 MHz. More repeaters are being put into service all the time. Repeater frequencies are selected through consultation with frequency coordinators -- individuals or groups that recommend repeater frequencies based on potential interference and other factors.a comprehensive listing of repeaters throughout the activity, theCertain segments of each band are set aside for FM operation. For example, on 1.25 meters, repeater inputs are found between 222.32 and 223.28 MHz. The corresponding outputs are between 223.92 and 224.98 MHz.Frequencies between 223.42 and 223.9 MHz are set aside for simplex operation. On 23 cm, repeater inputs run between 1270 and 1276 MHz, with corresponding outputs between 1282 and 1288 MHz. Simplex operation is between 1294 and 1295 MHz.Repeater OperatingBefore you make your first FM repeater contact, you should learn some repeater operating techniques. It's worth a few minutes to listen and familiarize yourself with the procedures used by other hams in your area. Accepted procedures can vary slightly from repeater to repeater.Your First TransmissionMaking your first transmission on a repeater is as simple as signing your call. If the repeater is quiet, just say "N1GZO" or "N1GZO listening" -- to attract someone's attention. After you stop transmitting, you will usually hear the unmodulated repeater carrier for a second or two. This squelch tail lets you know that the repeater is working. Someone interested in talking to you will call you after your initial transmission. Some repeaters have specific rules for making yourself heard. In general, however, your call sign is all you need.Don't call CQ to initiate a conversation on a repeater. It takes longer to complete a CQ than to transmit your call sign. (In some areas, a solitary "CQ" is permissible.) Efficient communication is the goal. You are not on HF, trying to attract the attention of someone who is casually tuning across the band. In the FM mode, stations are either monitoring their favorite frequency or not. Except for scanner operation, there is not much tuning across the repeater bands.To join a conversation in progress, transmit your call sign during a break between transmissions. The station that transmits next will usually acknowledge you. Don't use the word "break" to join a conversation --unless you want to use the repeater to help in an emergency. To make a distress call over a repeater, say "break break" and then your call sign to alert all stations to stand by while you deal with the emergency.A further word about emergencies: Regardless of the band, mode or your class of license, FCC Rules specify that, in case of emergency, the normal rules can be suspended. If you hear an emergency call for help, you should do whatever you can to establish contact with the station needing assistance, and immediately pass the information on to the proper authorities. If you are talking with another station and you hear an emergency call for help, stop your QSO immediately and take the emergency call.To call another station when the repeater is not in use, just give both calls. For example, "N1II, this is N1BKE'' If the repeater is in use, but the conversation sounds like it is about to end, wait before calling another station. If the conversation sounds like it is going to continue for a while, however, transmit only your call sign between their transmissions. After you are acknowledged, ask to make a quick call. Usually, the other stations will stand by. Make your call short. If your friend responds, try to meet on another repeater or on a simplex frequency. Otherwise, ask your friend to stand by until the present conversation ends.Use plain language on a repeater. If you want to know someone's location, say "Where are you?" If you want to know whether someone you're talking with is using a mobile rig or a hand-held radio, just ask: "What kind of radio are you using?" You get the idea.Courtesy CountsIf you are in the midst of a conversation and another station transmits his or her call sign between transmissions, the next station in line to transmit should acknowledge the new station and permit the new arrival to make a call or join the conversation. It is impolite not to acknowledge new stations, or to acknowledge them but not let them speak. The calling station may need to use the repeater immediately. He or she may have an emergency to handle, so let him or her make a transmission promptly.A brief pause before you begin each transmission allows other stations to break in -- there could be an emergency. Don't key your microphone as soon as someone else releases theirs. If your exchanges are too quick, you can prevent other stations from getting in.The courtesy tones found on some repeaters prompt users to leave a space between transmissions. The beeper sounds a second or two after each transmission to permit new stations to transmit their call signs in the intervening time. The conversation may continue only after the beeper sounds. If a station is too quick and begins transmitting before the beeper sounds, the repeater may indicate the violation, sometimes by shutting down!Keep transmissions as short as possible, so more people can use the repeater. Again, long transmissions could prevent someone with an emergency from getting the chance to call for help through the repeater. All repeaters encourage short transmissions by "timing out" (shutting down for a few minutes) when someone gets longwinded. The time-out timer also prevents the repeater from transmitting continuously, due to distant signals or interference. Because it has such a wide coverage area, a continuously transmitting repeater could cause unnecessary interference. Continuous operation can also damage the repeater.You must transmit your call sign at the end of a contact and at least every 10 minutes during the course of any communication. You do not have to transmit the call sign of the station to whom you are transmitting.Never transmit without identifying. For example, keying your microphone to turn on the repeater without saying your station call sign is illegal. If you do not want to engage in conversation, but simply want to check if you are able to access a particular repeater, simply say "N1KB testing."Fixed Stations and Prime TimeRepeaters were originally intended to enhance mobile communications. During commuter rush hours, mobile stations still have preference over fixed stations on some repeaters. During mobile prime time, fixed stations should generally yield to mobile stations. When you're operating as a fixed station, don't abandon the repeater completely, though. Monitor the mobiles: your assistance may be needed in an emergency. Use good judgment: Rush hours are not the time to test your radio extensively or to join a net that doesn't deal with the weather, highway conditions or other subjects related to commuting. Third-party communications nets probably should not be conducted on a repeater during prime commuting hours.Simplex OperationAfter you have made a contact on a repeater, move the conversation to a simplex frequency if possible. The repeater is not a soapbox. You may like to listen to yourself, but others, who may need to use the repeater, will not appreciate your tying up the repeater unnecessarily. The easiest way to determine if you are able to communicate with the other station on simplex is to listen to the repeater input frequency. Since this is the frequency the other station uses to transmit to the repeater, if you can hear his signals there, you should be ableto use simplex. If you want to perform an on-the-air test of a pair of hand-held radios, you should select an unoccupied simplex frequency.The function of a repeater is to provide communications between stations that can't otherwise communicate because of terrain, equipment limitations or both. It follows that stations able to communicate without a repeater should not use one. That way, the repeater is available for stations that need it. (Besides, communication on simplex offers a degree of privacy impossible to achieve on a repeater. On simplex you can usually have extensive conversations without interruption.)Select a frequency designated for FM simplex operation. Otherwise, you may interfere with stations operating in other modes without realizing it. (The reason for this is simple: Changing to a simplex frequency is far easier than changing the frequencies a repeater uses.) To see if you and the other station can communicate on a simplex frequency, listen on the repeater input frequency. If you can clearly hear what's going into the repeater, you don't need the repeater to communicate.Common VHF/UHF FM Simplex Frequencies2-Meter Band 146.52* 146.535 146.55146.565 146.58146.595 147.42147.435 147.45147.465 147.48147.495 147.51147.525 147.54147.555 147.57147.5851.25-Meter Band223.42223.44223.46223.48223.50*223.5270-cm Band446.0*33-cm Band906.5*23-cm Band1294.5*1294.0001294.025Every 25 kHz to 1295* National simplex frequencyAutopatch: Use it WiselyAn autopatch allows repeater users to make telephone calls through the repeater. To use most repeater autopatches, you generate the standard telephone company tones to access and dial through the system. The tones are usually generated with a telephone-type tone pad connected to the transceiver. Tone pads are available from equipment manufacturers as standard or optional equipment. They are often mounted on the front of a portable transceiver or on the back of a fixed or mobile transceiver's microphone. Whatever equipment you use, the same autopatch operating procedures apply.There are strict guidelines for autopatch use. The first question you should ask is "Is the call necessary?" If it is an emergency, there is no problem -- just do it! Calling for an ambulance or a tow truck is okay. Otherreasons may fall into a gray area. As a result, some repeater groups expressly forbid autopatch use, except for emergencies.Don't use an autopatch where regular telephone service is available. One example of poor operating practice can be heard most evenings in any metropolitan area. Someone will call home to announce departure from the office. Why not make that call from work before leaving?Never use the autopatch for anything that could be considered business communications. The FCC strictly forbids you to conduct communications in Amateur Radio for your business or for your employer. You may, however, use Amateur Radio to conduct your own personal communications. The rules no longer forbid you to use the autopatch to call your doctor or dentist to make an appointment, or to order food, for example.Don't use an autopatch just to avoid a toll call. Autopatch operation is a privilege granted by the FCC. Abuses of autopatch privileges may lead to their loss for everyone.You have a legitimate reason to use the autopatch? Here's how most systems operate. First, you must access (turn on) the autopatch, usually by pressing a designated key on the tone pad. Ask the other hams on a repeater how to learn the access code. Many clubs provide this information only to club members. When you hear a dial tone, you know that you have successfully accessed the autopatch.Now, simply punch in the telephone number you wish to call.Once a call is established, remember that you are still on the air. Unlike a normal telephone call, only one party at a time may speak. Both you and the other person should use the word "over" to indicate that you are finished talking and expect a reply. Keep the call short. Many repeaters shut off the autopatch after a certain time.Turning off the autopatch is similar to accessing it. A key or combination of keys must be punched to return the repeater to normal operation. Ask the repeater group sponsoring the autopatch for specific information about access and turn-off codes, as well as timer specifics. Don't forget to identify your station. Most groups expect you to give your call sign, the date and time just before accessing the autopatch and just after turning it off.。

中职无线电基础教案第一章：无线电基础知识1.1 无线电的定义与发展1.2 无线电波的特性1.3 无线电频率与波段1.4 无线电发射与接收原理第二章：无线电通信原理2.1 调制与解调2.2 无线电发射机的工作原理2.3 无线电接收机的工作原理2.4 无线电通信的调制方式第三章：无线电频率分配与规划3.1 无线电频率的分配原则3.2 我国无线电频率分配现状3.3 无线电频率规划与管理系统3.4 无线电频率使用申请与审批流程第四章：无线电设备与器材4.1 无线电发射设备4.2 无线电接收设备4.3 无线电导航与定位设备4.4 无线电通信设备的选择与使用第五章：无线电应用与实践5.1 无线电广播5.2 无线电通信5.3 无线电导航与定位5.4 无线电遥控与遥感技术第六章：无线电法律法规与道德规范6.1 无线电法律法规概述6.2 无线电管理法规与条例6.3 无线电频率管理法律法规6.4 无线电通信设备的法律法规6.5 无线电道德规范与行为准则第七章：无线电安全与防护7.1 无线电辐射对人体健康的影响7.2 无线电设备的防辐射措施7.3 无线电传输过程中的干扰与防护7.4 无线电安全操作规程7.5 无线电应急预案与救援措施第八章：无线电技术发展与创新8.1 无线电技术的起源与发展历程8.2 现代无线电通信技术及其应用8.3 无线电新技术与发展趋势8.4 我国无线电技术研究与创新成果8.5 无线电技术在前沿领域的应用第九章：无线电实验与操作9.1 无线电实验设备与工具9.2 无线电发射与接收实验9.3 无线电频率调试与测量9.4 无线电通信实验与操作9.5 无线电故障排查与维修第十章：无线电应用案例分析10.1 无线电在军事领域的应用案例10.2 无线电在航空航天领域的应用案例10.3 无线电在交通运输领域的应用案例10.4 无线电在公共安全领域的应用案例10.5 无线电在民用与商业领域的应用案例重点和难点解析一、无线电基础知识补充说明：深入讲解无线电波的传播特性，如直线传播、折射、反射等；详细阐述不同频率段的无线电波应用场景和特点。

无线电测向基础知识
1、认识测向机
2、80米波段测向机持机方法
右手握机，大拇指靠近“单、双向开关”，其它四指握向测向机，手背一面是大音面；松肩、垂肘，测向机举至胸前，距人体约25厘米左右，尽量保持测向机与地面垂直。

调整测向机时，用右手调整各旋钮和扳动各开关（单、双向开关由右手大拇指控制）。

测单向时，为了测线准确，找准方位物，允许将持机臂伸直，将测向机抬高与眼平，进行“瞄准”。

3、测向机的信号
4、测向机的使用
（1）当磁棒轴线的垂直方向对着电台时耳机声音最大，此时磁性天线正对着电台的那个面称大音面，或大音点。

利用大音面我们可粗略确定信号源所在的方向（面）。

（2）当磁棒轴线正指电台时，耳机声音最小或完全无声，此时称小音点或哑点。

利用哑点可以精确地得到电台的位置。

第1章绪论1.1 导航的发展简史1.1.1 导航的基本概念导航是一门研究导航原理和导航技术装置的学科。

导航系统是确定航行体的位置方向，并引导其按预定航线航行的整套设备（包括航行体上的、空间的、地面上的设备）。

一架飞机从一个机场起飞，希望准确的飞到另外一个机场就必须依靠导航、制导技术。

导航，即引导航行的意思，也就是正确的引导航行体沿预定的航线，以要求的精度，在指定的时间内将航行体引导至目的地。

由此可知除了知道起始点和目标位置之外，还要知道航向体的位置、速度、姿态等导航参数。

其中最主要的是知道航行体的位置。

1.1.2 导航系统的发展在古代，我们的祖先一直利用天上的星星进行导航，在古石器时代，为了狩猎方便，人们利用简单的恒星导航方法，这就是最早的天文导航方法。

后来，随着技术的不断发展和人们对事物认知的发展，人们利用导航传感器来导航，最早是我们祖先发明的指南针。

现有的导航传感器包括六分仪、磁罗盘、无线电罗盘、空速表、气压高度表、惯性传感器、雷达、星体跟踪器、信号接收机等。

以航空领域为例，从20世纪20年代开始飞机出现了仪表导航系统。

30年代出现了无线电导航系统，即依靠飞机上的信标接收机和无线电罗盘来获得地面导航台的信息已进行导航。

40年代开始研制甚高频导航系统。

1954年，惯性导航系统在飞机上试飞成功，从而开创了惯导时代。

50年代出现了天文导航系统和多普勒导航系统。

1957年世界上第一颗卫星发射成功以后，利用卫星进行导航、定位的研究工作被提上了议事日程，并着手建立海事卫星系统用于导航定位。

随着1967年海事卫星系统经美国政府批准对其广播星历解密并提供民用，由此显示出卫星定位的巨大潜力。

60年代开始使用远程无线电罗兰-C导航系统，同时还有塔康导航系统、远程奥米伽导航系统以及自动天文导航系统。

60年代后，无线电导航得到进一步发展，并与人造卫星导航相结合。

70年代以后，全球定位导航系统得到进一步发展和应用。

在此过程中，为了发挥不同导航系统的优点，互为补充，出现了各种组合导航系统，它们主要以惯性导航系统为基准。

编者按:随着信息时代的到来,对无线通信的需求如移动通信、公共安全、电视广播等持续升高,使得无线电磁频谱已成为现代社会中极其重要的国家资源。

同时,在现代化战争中,电磁环境也越来越复杂,如何在复杂电磁环境下,保持通信的畅通是军事通信中的重要问题。

无论是在民用还是军用,无线电通信在频谱使用上面临两大难题:匮乏与部署困难。

这两个难题都是由现有的集中式、静态频谱分配策略引起的。

集中式、静态频谱分配策略不能灵活地在空间和时间上实现已分配频谱的动态复用,因而造成了频谱的利用率低下和明显匮乏。

它还要求在部署前预先向服务分配频谱,由此导致了部署的困难。

解决这两个问题的有效方法之一是采用认知无线电技术CR(Cognitiv e Radio )。

“Cognitiv e radio ”这个术语首先是由Joseph M itola 提出的。

Simon Hakin在2005年2月JSAC in Communicatio ns 上发表了关于认知无线电的综述,标志性文章“Cognitiv er adio :brain -empow ered w ireless communicatio ns ”,为国际性的认知无线电技术研究拉开了序幕。

认知无线电发展极其迅速,源于三方面的巨大推动力量: 政府的支持(FCC ); IEEE 802.22;美国国防高级研究计划(DARPA)的下一代网络XG(neXt Generation)。

CR 技术将是未来无线通信的发展方向之一。

因此,我们开辟关于认知无线电的系列讲座,共分四讲。

第一讲侧重基本概念,介绍认知无线电及军用认知无线电;第二讲侧重推动力量,介绍IEEE 802.22工作组及美国的下一代军事通信网络XG;第三讲侧重感知技术,介绍频谱感知与敌我感知;第四讲侧重系统网络的认知,介绍协同认知与网络认知。

认知无线电专题讲座(一)第1讲　认知无线电王金龙(解放军理工大学通信工程学院,江苏南京210007)摘　要:随着人们对无线高速数据传输需求的增长,频谱资源越来越紧缺,有效可靠的无线频谱接入成为人们关注的焦点。

无线电基础知识课件导语：对于无线电基础，掌握相关名词解释非常重要。

下面是无线电基础知识课件：无线电通信名词解释，欢迎大家阅读和参考。

1、无线电的发现与发展无线电的通信起源可以追朔到100多年前的无线电的发现。

1831年，英国法拉弟首先发现了电磁感应现象。

1865年，英国科学家麦克斯韦在总结前人研究电磁现象的基础上，并于1873年建立了完成的电磁波理论。

1887年赫兹验证了电磁波的存在，1895年意大利的马可尼和俄国的波波夫分别利用电磁波成功地进行了莫尔斯电码的发射和接收的实验，发展了无线电，开创了人类开发利用无线电的新纪元。

无线电经过了一百多年的发展，逐步被人类所认识，并被广泛运用于国防建设、经济发展、社会生活的各个领域，在人类社会的发展中起到了重要的推动作用。

其中，德国物理学家赫兹用实验证实了电磁波的存在，为无线电技术的发展开拓了道路，被誉为无线电通信的先驱。

后人为了纪念他，用他的名字命名了频率的单位。

1905年7月，北洋大臣袁世凯在天津开办了无线电训练班，购置马可尼无线电机，在南苑、保定、天津等处行营及部分军舰上装用，用无线电进行相互联系。

开办了中国第一所中央政府所属军用无线电报学堂。

中国人自己开办的第一个广播电台是由无线电专家刘瀚1926年10月1日在哈尔滨创办的。

早期，国际无线电管理机构划分了专门的无线电频率用于海上船舶遇险呼救，呼救信号是SOS。

1958年5月1日，新中国的第一家电视台――北京电视台成立，并试验播出，1958年9月2日，正式播出。

北京电视台是中央电视台的前身。

2、什么叫无线电无线电对无线电波使用的通称。

是一门专门研究利用无线电波传送各种信息的技术学科。

3、什么叫无线电波无线电波是电磁波的一部分，它通过电场和磁场的交替变化，以3×108米/秒(光速) 在自由空间（包括空气和真空）向各个方向传播。

其频率一般为3KHz－300GHz。

4、什么是无线电波段无线电波根据波长和频率，可分为超长波、长波、中波、短波、超短波、微波等波段（也称频段）。