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1 радиоканал
radio channel, radio-frequency channel, wireless channel, radio (communication) circuit, radio duct, radio link, radio path* * *радиокана́л м.1. ( полоса частот) radio channel2. (в значении линии, использующей определённую полосу частот) radio-communication channel, radio link -
2 радиолиния
radio (communication) circuit, radio link* * *радиоли́ния ж.1. свз. radio circuit, radio link2. ( спектральная линия) физ. r.f. spectral lineвтори́чная радиоли́ния — scatter radio linkреле́йная радиоли́ния — relay [microwave] radio link* * * -
3 радиосхема
* * *радиосхе́ма ж.
(radio) circuit; элк. (electronic) circuit* * * -
4 канал радиосвязи
radio circuit, radio communication circuit, wireless channelРусско-английский словарь по радиоэлектронике > канал радиосвязи
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5 радиоканал
1) Engineering: radio channel, radio circuit, radio communication channel, radio communication circuit, radio duct, radio link, radio path, radio-frequency channel, radiofrequency channel, wireless channel2) Telecommunications: channel, radio hole3) Advertising: radio channel (обычно шириной 10 кГц для радиостанций с амплитудной модуляцией и 200 кГц для радиостанций с частотной модуляцией)4) Makarov: radio channel (полоса частот), radio link (в значении линии, использующей определённую полосу частот), radio-communication channel (в значении линии, использующей определённую полосу частот)5) Security: wireless link -
6 канал радиосвязи
1) General subject: radio channel2) Military: (телефонной) voice (telephone) channel3) Telecommunications: radio communication channel, radio intercommunication channel4) Electronics: radio communication circuit5) Security: wireless communication path -
7 радиолиния
1) Engineering: RF spectral line (спектральная линия), radio circuit, radio communication circuit, radio link, wire broadcasting line2) Telecommunications: radio-frequency line, radio-frequency transmission line, wireless link3) Physics: r.f. spectral line (спектральная линия), radio-frequency spectral line4) Spectroscopy: radio line -
8 проводный канал поездной радиосвязи
проводный канал поездной радиосвязи
Проводный канал, используемый для соединения, передачи речевых сигналов и сигналов взаимодействия между распорядительной станцией, находящейся в диспетчерском центре управления, и стационарными радиостанциями, установленными вдоль участка железной дороги.
[ ГОСТ Р 53953-2010]Тематики
EN
Русско-английский словарь нормативно-технической терминологии > проводный канал поездной радиосвязи
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9 радиосхема
Engineering: circuit, electronic circuit, radio circuit, radio communication circuit -
10 канал радиосвязи
wireless channel, radio circuit, radio communication circuit -
11 линия связи радиорелейная
Русско-английский глоссарий по космической технике > линия связи радиорелейная
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12 связь
связь сущ1. communication2. coupling аварийная связьdistress communicationаварийная связь с воздушным судномair distress communicationавиационная связьaeronautical telecommunicationаэродромная командная связьaerodrome control communicationаэродромная радиостанция командной связиaerodrome control radioбезредукторная обратная связьdirect feedbackбеспроводная связьwireless communicationблок связи автопилота с радиостанциейradio-autopilot couplerблок связи с курсовой системойcompass system coupling unitблок связи с радиолокационным оборудованиемradar coupling unitведение связиcommunications operationвыделение канала для связиchannel assignmentвызов на связь1. callup2. call-in 3. aircall гибкая обратная связьflexible feedbackглавная магистральная цепь связиmain trunk circuitдальность связиinitial contact rangeдатчик обратной связиfeedback transmitterдвухканальная дуплексная связьdouble channel duplexдвухканальная связьdouble channelдвухканальная симплексная связьdouble channel simplexдискретная система связиdiscrete communication systemдуплексная связь1. two-way communication2. duplex импульсная связьpulse radio communicationканал микроволновой связиmicrowave linkканал прямой радиолокационной связиdirect access radar channelканал радио связиradio channelканал связи воздух-земля1. downlink2. down link канал связи воздух - земляair-ground communication channelканал связи земля-воздухup linkканал связи на маршрутеon-course channelканал спутниковой связи воздух - земляaircraft-to-satellite channelконец связиoutконтрольный пункт связиcommunication check pointконтур обратной связиfeedback loopлиния циркулярной связиconference bridgeмежзональная связьinterarea communicationназемная линия связиlandlineобеспечение переговорной связиintercommunicationоборудование циркулярной связиconference facilitiesобратная связь1. feedback2. back coupling одноканальная связьsingle channel communicationоперативная связь авиакомпанийairline operational communicationоператор авиационной связиair communicatorотрицательная обратная связьnegative feedbackподдерживать связь1. carry out communication2. maintain communication позывной общего вызова на связьnet call signполет в связи с особыми обстоятельствамиspecial event flightположительная обратная связьpositive feedbackпомехи от авиационных средств связиair clutterпорядок действий при отказе средств связиcommunication failure procedureпроводная связьwire communicationпрямая связь между пунктамиdirect point-to-point connectionпункт выхода на связьpoint of callпункт переключения частоты связиchange-over pointрадиостанция диспетчерской связиcontrol radio stationрадиотелефонная связьradiotelephony communicationрадиотехнические средства связиradio communication equipmentрегиональный узел связиregional telecommunication hubрезервные средства связиalternative means of communicationсвязь воздух - земля1. air-to-ground communication2. air-ground communication связь для управления полетамиcontrol communicationсвязь на маршрутеen-route communicationсвязь по запросу с бортаair-initiated communicationсвязь по обеспечению регулярности полетовflight regularity communicationсвязь при руленииtaxiway linkсвязь типа запрос - ответrequest communicationСекция связиCommunication Section(ИКАО) сеть авиационной метеорологической факсимильной связиaviation meteorological facsimile networkсеть национальной факсимильной связиnational facsimile networkсеть прямой речевой связиdirect speech networkсигнал обратной связиfeedback signalсимплексная связь1. simplex communication2. one-way communication 3. simplex система внутренней связиinterphone systemсистема наземных линий связиlandline systemсистема обратной связи управления разворотом колес передней опоры шассиnosewheel steering follow-up systemсистема проводной связиwire systemсистема речевой связиvoice communication systemсистема связи аэропортаairport communication systemсистема связи воздух-воздухair-air netсистема сети радиотелефонной связиradiotelephony network system(воздушных судов) система телетайпной связиteletype broadcast systemсистема телефонной связиphone systemсистема управления с обратной связьюfeedback control systemслужба связиcommunication serviceсогласованный пункт выхода на связьagreed reporting pointспутник связиcommunication satelliteсредства связи1. means of communication2. communication facilities степень обратной связиamount of feedbackтелетайп наземной линии связиlandline teletypewriterтрос обратной связиfollow-up cableтрос обратной связи разворотаsteering feedback cableуровень помех речевой связиlevel of speech interferenceустанавливать связьestablish communicationцентр обеспечения воздушной связиair communication centerцепь обратной связиfeedback circuitцепь прямой речевой связиdirect speech circuitцепь связиcoupling circuitцепь спутниковой связиsatellite circuitцепь фиксированной авиационной связиaeronautical fixed circuitцифровая связьdigital communicationчартерный рейс в связи с особыми обстоятельствамиspecial event charterчастота вызова на связьcalling frequencyэксплуатационные правила радиотелефонной связиradiotelephony operating procedures -
13 радиосвязь
wireless radio, radio, radiocommunications, radiocommunication, wireless* * *радиосвя́зь ж.
radio communication; ( единичный сеанс радиосвязи) (radio) contactиспо́льзовать радиосвя́зь для … — use (radio) contact for …наруша́ть радиосвя́зь — disrupt radio communicationподде́рживать радиосвя́зь — maintain (radio) contactустанови́ть радиосвя́зь с … — contact … by radio, set up (radio) contactвнутрипоездна́я радиосвя́зь — inter-train radio circuitдвусторо́нняя радиосвя́зь — two-way radio communicationду́плексная радиосвя́зь — ( режим работы) duplex operation; ( оборудование) duplex radio systemрадиосвя́зь за счёт многокра́тного отраже́ния радиово́лн — multihop radio communicationиндивидуа́льная радиосвя́зь — personal radio communicationионосфе́рная радиосвя́зь — ionospheric radio communicationкосми́ческая радиосвя́зь — space radio communicationлюби́тельская радиосвя́зь — amateur radio communicationмагистра́льная радиосвя́зь — point-to-point radio communicationрадиосвя́зь ме́жду корабля́ми — ship-to-ship radio communicationметео́рная радиосвя́зь — meteor-trail scatter radio communicationмногокана́льная радиосвя́зь — multichannel radio communicationмоби́льная радиосвя́зь — vehicular [mobile] radio communicationоднокана́льная радиосвя́зь — single-channel radio communicationодносторо́нняя радиосвя́зь — one-way radio communicationрадиореле́йная радиосвя́зь — radio-relay communicationси́мплексная радиосвя́зь — ( режим работы) simplex operation; ( оборудование) simplex radio linkтелефо́нная радиосвя́зь — radiotelephone (service)тропосфе́рная радиосвя́зь — tropospheric-scatter radio communicationфототелегра́фная радиосвя́зь — facsimile radio link -
14 радиосвязь
ж. radio communication; contactиспользовать радиосвязь для … — use contact for …
установить радиосвязь с … — contact … by radio
дуплексная радиосвязь — duplex operation; duplex radio system
симплексная радиосвязь — simplex operation; simplex radio link
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15 Marconi, Marchese Guglielmo
[br]b. 25 April 1874 Bologna, Italyd. 20 July 1937 Rome, Italy[br]Italian radio pioneer whose inventiveness and business skills made radio communication a practical proposition.[br]Marconi was educated in physics at Leghorn and at Bologna University. An avid experimenter, he worked in his parents' attic and, almost certainly aware of the recent work of Hertz and others, soon improved the performance of coherers and spark-gap transmitters. He also discovered for himself the use of earthing and of elevated metal plates as aerials. In 1895 he succeeded in transmitting telegraphy over a distance of 2 km (1¼ miles), but the Italian Telegraph authority rejected his invention, so in 1896 he moved to England, where he filed the first of many patents. There he gained the support of the Chief Engineer of the Post Office, and by the following year he had achieved communication across the Bristol Channel.The British Post Office was also slow to take up his work, so in 1897 he formed the Wireless Telegraph \& Signal Company to work independently. In 1898 he sold some equipment to the British Army for use in the Boer War and established the first permanent radio link from the Isle of Wight to the mainland. In 1899 he achieved communication across the English Channel (a distance of more than 31 miles or 50 km), the construction of a wireless station at Spezia, Italy, and the equipping of two US ships to report progress in the America's Cup yacht race, a venture that led to the formation of the American Marconi Company. In 1900 he won a contract from the British Admiralty to sell equipment and to train operators. Realizing that his business would be much more successful if he could offer his customers a complete radio-communication service (known today as a "turnkey" deal), he floated a new company, the Marconi International Marine Communications Company, while the old company became the Marconi Wireless Telegraph Company.His greatest achievement occurred on 12 December 1901, when Morse telegraph signals from a transmitter at Poldhu in Cornwall were received at St John's, Newfoundland, a distance of some 2,100 miles (3,400 km), with the use of an aerial flown by a kite. As a result of this, Marconi's business prospered and he became internationally famous, receiving many honours for his endeavours, including the Nobel Prize for Physics in 1909. In 1904, radio was first used to provide a daily bulletin at sea, and in 1907 a transatlantic wireless telegraphy service was inaugurated. The rescue of 1,650 passengers from the shipwreck of SS Republic in 1909 was the first of many occasions when wireless was instrumental in saving lives at sea, most notable being those from the Titanic on its maiden voyage in April 1912; more lives would have been saved had there been sufficient lifeboats. Marconi was one of those who subsequently pressed for greater safety at sea. In 1910 he demonstrated the reception of long (8 km or 5 miles) waves from Ireland in Buenos Aires, but after the First World War he began to develop the use of short waves, which were more effectively reflected by the ionosphere. By 1918 the first link between England and Australia had been established, and in 1924 he was awarded a Post Office contract for short-wave communication between England and the various parts of the British Empire.With his achievements by then recognized by the Italian Government, in 1915 he was appointed Radio-Communications Adviser to the Italian armed forces, and in 1919 he was an Italian delegate to the Paris Peace Conference. From 1921 he lived on his yacht, the Elettra, and although he joined the Fascist Party in 1923, he later had reservations about Mussolini.[br]Principal Honours and DistinctionsNobel Prize for Physics (jointly with K.F. Braun) 1909. Russian Order of S t Anne. Commander of St Maurice and St Lazarus. Grand Cross of the Order of the Crown (i.e. Knight) of Italy 1902. Freedom of Rome 1903. Honorary DSc Oxford. Honorary LLD Glasgow. Chevalier of the Civil Order of Savoy 1905. Royal Society of Arts Albert Medal. Honorary knighthood (GCVO) 1914. Institute of Electrical and Electronics Engineers Medal of Honour 1920. Chairman, Royal Society of Arts 1924. Created Marquis (Marchese) 1929. Nominated to the Italian Senate 1929. President, Italian Academy 1930. Rector, University of St Andrews, Scotland, 1934.Bibliography1896, "Improvements in transmitting electrical impulses and in apparatus thereof", British patent no. 12,039.1 June 1898, British patent no. 12,326 (transformer or "jigger" resonant circuit).1901, British patent no. 7,777 (selective tuning).1904, British patent no. 763,772 ("four circuit" tuning arrangement).Further ReadingD.Marconi, 1962, My Father, Marconi.W.J.Baker, 1970, A History of the Marconi Company, London: Methuen.KFBiographical history of technology > Marconi, Marchese Guglielmo
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16 Armstrong, Edwin Howard
[br]b. 18 December 1890 New York City, New York, USAd. 31 January 1954 New York City, New York, USA[br]American engineer who invented the regenerative and superheterodyne amplifiers and frequency modulation, all major contributions to radio communication and broadcasting.[br]Interested from childhood in anything mechanical, as a teenager Armstrong constructed a variety of wireless equipment in the attic of his parents' home, including spark-gap transmitters and receivers with iron-filing "coherer" detectors capable of producing weak Morse-code signals. In 1912, while still a student of engineering at Columbia University, he applied positive, i.e. regenerative, feedback to a Lee De Forest triode amplifier to just below the point of oscillation and obtained a gain of some 1,000 times, giving a receiver sensitivity very much greater than hitherto possible. Furthermore, by allowing the circuit to go into full oscillation he found he could generate stable continuous-waves, making possible the first reliable CW radio transmitter. Sadly, his claim to priority with this invention, for which he filed US patents in 1913, the year he graduated from Columbia, led to many years of litigation with De Forest, to whom the US Supreme Court finally, but unjustly, awarded the patent in 1934. The engineering world clearly did not agree with this decision, for the Institution of Radio Engineers did not revoke its previous award of a gold medal and he subsequently received the highest US scientific award, the Franklin Medal, for this discovery.During the First World War, after some time as an instructor at Columbia University, he joined the US Signal Corps laboratories in Paris, where in 1918 he invented the superheterodyne, a major contribution to radio-receiver design and for which he filed a patent in 1920. The principle of this circuit, which underlies virtually all modern radio, TV and radar reception, is that by using a local oscillator to convert, or "heterodyne", a wanted signal to a lower, fixed, "intermediate" frequency it is possible to obtain high amplification and selectivity without the need to "track" the tuning of numerous variable circuits.Returning to Columbia after the war and eventually becoming Professor of Electrical Engineering, he made a fortune from the sale of his patent rights and used part of his wealth to fund his own research into further problems in radio communication, particularly that of receiver noise. In 1933 he filed four patents covering the use of wide-band frequency modulation (FM) to achieve low-noise, high-fidelity sound broadcasting, but unable to interest RCA he eventually built a complete broadcast transmitter at his own expense in 1939 to prove the advantages of his system. Unfortunately, there followed another long battle to protect and exploit his patents, and exhausted and virtually ruined he took his own life in 1954, just as the use of FM became an established technique.[br]Principal Honours and DistinctionsInstitution of Radio Engineers Medal of Honour 1917. Franklin Medal 1937. IERE Edison Medal 1942. American Medal for Merit 1947.Bibliography1922, "Some recent developments in regenerative circuits", Proceedings of the Institute of Radio Engineers 10:244.1924, "The superheterodyne. Its origin, developments and some recent improvements", Proceedings of the Institute of Radio Engineers 12:549.1936, "A method of reducing disturbances in radio signalling by a system of frequency modulation", Proceedings of the Institute of Radio Engineers 24:689.Further ReadingL.Lessing, 1956, Man of High-Fidelity: Edwin Howard Armstrong, pbk 1969 (the only definitive biography).W.R.Maclaurin and R.J.Harman, 1949, Invention \& Innovation in the Radio Industry.J.R.Whitehead, 1950, Super-regenerative Receivers.A.N.Goldsmith, 1948, Frequency Modulation (for the background to the development of frequency modulation, in the form of a large collection of papers and an extensive bibliog raphy).KFBiographical history of technology > Armstrong, Edwin Howard
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17 линия радиосвязи
1) General subject: radio channel2) Aviation: wireless link3) Military: radio link4) Telecommunications: radio line5) Astronautics: communication link, radio communication link6) Network technologies: RCL, radio communications link7) Makarov: link, radio circuit -
18 радиосвязь
радиосвязь сущ1. radio2. radio communication аэродром выхода на радиосвязьaerodrome of callвысокая частота радиосвязиhigh frequencyзапасной канал радиосвязиemergency radio channelзона неустойчивой радиосвязиambiguity coneканал спутниковой радиосвязи воздух - земляdownlink satellite radio channelкрайне высокая частота радиосвязиextremely high frequencyлиния радиосвязи1. wireless link2. radio link нарушение радиосвязиradio failureпозывной радиосвязиradio call signпорядок действий при отказе радиосвязиradio failure procedureпорядок действия при отказе двусторонней радиосвязиtwo-way radio failure procedureпроверка радиосвязиradio checkпрослушивание радиосвязиradio listening watchсистема радиосвязиwireless systemслужба радиосвязиradiocommunication serviceстанция глушения радиосвязиjamming stationцепь радиосвязиradio link circuit -
19 digitale Funkstrecke
Funkstrecke f: digitale Funkstrecke f digital radio link, digital wireless link, digital radio communication, digital radio circuitDeutsch-Englisch Wörterbuch der Elektrotechnik und Elektronik > digitale Funkstrecke
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20 digitale Funkverbindung
Funkverbindung f: digitale Funkverbindung f digital radio link, digital wireless link, digital radio communication, digital radio circuitDeutsch-Englisch Wörterbuch der Elektrotechnik und Elektronik > digitale Funkverbindung
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