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1 oscilloscoopbuis
• oscilloscope tube -
2 lampa elektronowa oscyloskopowa
• oscilloscope tubeSłownik polsko-angielski dla inżynierów > lampa elektronowa oscyloskopowa
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3 osiloskop tüpü
oscilloscope tube -
4 электронно-лучевая трубка
1) General subject: electric eye, tube, vacuum tube2) Aviation: oscilloscope tube3) Medicine: cathode-ray tube4) Engineering: CRT, bead tube, scope, (электронная) tube5) Mathematics: Williams tube6) TV: oscillotron7) Telecommunications: beam-deflection tube, electron ray tube, indicator tube8) Physics: electron-beam tube9) Electronics: Braun tube, display tube10) Information technology: cathode ray tube (http://ivb.unact.ru/glossary/crt.html)11) Astronautics: cathode ray tube12) Automation: electron-ray tube13) Makarov: electron tube15) Electrical engineering: cathode-ray tube (ЭЛТ), electronic tube (ЭЛТ), tube (ЭЛТ)Универсальный русско-английский словарь > электронно-лучевая трубка
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5 lampa oscyloskopowa
• cathode-ray oscilloscope• oscilloscope tube• scopeSłownik polsko-angielski dla inżynierów > lampa oscyloskopowa
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6 осциллографическая ЭЛТ
Engineering: oscillograph tube, oscilloscope tubeУниверсальный русско-английский словарь > осциллографическая ЭЛТ
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7 осциллографическая электронно-лучевая трубка
Engineering: oscillograph tube, oscilloscope tubeУниверсальный русско-английский словарь > осциллографическая электронно-лучевая трубка
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8 осциллографическая трубка
oscillographic tube, oscilloscope tubeРусско-английский физический словарь > осциллографическая трубка
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9 Campbell-Swinton, Alan Archibald
[br]b. 18 October 1863 Kimmerghame, Berwickshire, Scotlandd. 19 February 1930 London, England[br]Scottish electrical engineer who correctly predicted the development of electronic television.[br]After a time at Cargilfield Trinity School, Campbell-Swinton went to Fettes College in Edinburgh from 1878 to 1881 and then spent a year abroad in France. From 1882 until 1887 he was employed at Sir W.G.Armstrong's works in Elswick, Newcastle, following which he set up his own electrical contracting business in London. This he gave up in 1904 to become a consultant. Subsequently he was an engineer with many industrial companies, including the W.T.Henley Telegraph Works Company, Parson Marine Steam Turbine Company and Crompton Parkinson Ltd, of which he became a director. During this time he was involved in electrical and scientific research, being particularly associated with the development of the Parson turbine.In 1903 he tried to realize distant electric vision by using a Braun oscilloscope tube for the. image display, a second tube being modified to form a synchronously scanned camera, by replacing the fluorescent display screen with a photoconductive target. Although this first attempt at what was, in fact, a vidicon camera proved unsuccessful, he was clearly on the right lines and in 1908 he wrote a letter to Nature with a fairly accurate description of the principles of an all-electronic television system using magnetically deflected cathode ray tubes at the camera and receiver, with the camera target consisting of a mosaic of photoconductive elements that were scanned and discharged line by line by an electron beam. He expanded on his ideas in a lecture to the Roentgen Society, London, in 1911, but it was over twenty years before the required technology had advanced sufficiently for Shoenberg's team at EMI to produce a working system.[br]Principal Honours and DistinctionsFRS (Member of Council 1927 and 1929). Freeman of the City of London. Liveryman of Goldsmiths' Company. First President, Wireless Society 1920–1. Vice-President, Royal Society of Arts, and Chairman of Council 1917–19,1920–2. Chairman, British Scientific Research Association. Vice-President, British Photographic Research Association. Member of the Broadcasting Board 1924. Vice-President, Roentgen Society 1911–12. Vice-President, Institution of Electrical Engineers 1921–5. President, Radio Society of Great Britain 1913–21. Manager, Royal Institution 1912–15.Bibliography1908, Nature 78:151; 1912, Journal of the Roentgen Society 8:1 (both describe his original ideas for electronic television).1924, "The possibilities of television", Wireless World 14:51 (gives a detailed description of his proposals, including the use of a threestage valve video amplifier).1926, Nature 118:590 (describes his early experiments of 1903).Further ReadingThe Proceedings of the International Conference on the History of Television. From Early Days to the Present, November 1986, Institution of Electrical Engineers Publication No. 271 (a report of some of the early developments in television). A.A.Campbell-Swinton FRS 1863–1930, Royal Television Society Monograph, 1982, London (a biography).KFSee also: Baird, John LogieBiographical history of technology > Campbell-Swinton, Alan Archibald
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10 осциллографическая ЭЛТ
oscillograph [oscilloscope] tubeРусско-английский политехнический словарь > осциллографическая ЭЛТ
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11 katodna cev osciloskopa
• oscilloscope cathode ray tube -
12 katodna cev osciloskopa
• oscilloscope cathode ray tube -
13 Braun, Karl Ferdinand
[br]b. 6 June 1850 Fulda, Hesse, Germanyd. 20 April 1918 New York City, New York, USA[br]German physicist who shared with Marconi the 1909 Nobel Prize for Physics for developments in wireless telegraphy; inventor of the cathode ray oscilloscope.[br]After obtaining degrees from the universities of Marburg and Berlin (PhD) and spending a short time as Headmaster of the Thomas School in Berlin, Braun successively held professorships in theoretical physics at the universities of Marburg (1876), Strasbourg (1880) and Karlsruhe (1883) before becoming Professor of Experimental Physics at Tübingen in 1885 and Director and Professor of Physics at Strasbourg in 1895.During this time he devised experimental apparatus to determine the dielectric constant of rock salt and developed the Braun high-tension electrometer. He also discovered that certain mineral sulphide crystals would only conduct electricity in one direction, a rectification effect that made it possible to detect and demodulate radio signals in a more reliable manner than was possible with the coherer. Primarily, however, he was concerned with improving Marconi's radio transmitter to increase its broadcasting range. By using a transmitter circuit comprising a capacitor and a spark-gap, coupled to an aerial without a spark-gap, he was able to obtain much greater oscillatory currents in the latter, and by tuning the transmitter so that the oscillations occupied only a narrow frequency band he reduced the interference with other transmitters. Other achievements include the development of a directional aerial and the first practical wavemeter, and the measurement in Strasbourg of the strength of radio waves received from the Eiffel Tower transmitter in Paris. For all this work he subsequently shared with Marconi the 1909 Nobel Prize for Physics.Around 1895 he carried out experiments using a torsion balance in order to measure the universal gravitational constant, g, but the work for which he is probably best known is the addition of deflecting plates and a fluorescent screen to the Crooke's tube in 1897 in order to study the characteristics of high-frequency currents. The oscilloscope, as it was called, was not only the basis of a now widely used and highly versatile test instrument but was the forerunner of the cathode ray tube, or CRT, used for the display of radar and television images.At the beginning of the First World War, while in New York to testify in a patent suit, he was trapped by the entry of the USA into the war and remained in Brooklyn with his son until his death.[br]Principal Honours and DistinctionsNobel Prize for Physics (jointly with Marconi) 1909.Bibliography1874, "Assymetrical conduction of certain metal sulphides", Pogg. Annal. 153:556 (provides an account of the discovery of the crystal rectifier).1897, "On a method for the demonstration and study of currents varying with time", Wiedemann's Annalen 60:552 (his description of the cathode ray oscilloscope as a measuring tool).Further ReadingK.Schlesinger \& E.G.Ramberg, 1962, "Beamdeflection and photo-devices", Proceedings of the Institute of Radio Engineers 50, 991.KF -
14 ЭЛТ
* * *ЭЛТ сокр. [электроннолучева́я тру́бка]
cathode-ray tube, CRTЭЛТ взрыва́ется — a CRT implodesзапира́ть ЭЛТ (напр. на время обратного хода луча) — blank the CRT (e. g., during flyback)ЭЛТ отобража́ет информа́цию — a CRT displays dataЭЛТ отка́чивают до высо́кого ва́куума — a CRT is evacuated to a high [hard] vacuumдвухлучева́я ЭЛТ — double beam CRTзапомина́ющая ЭЛТ — storage tubeзнакопеча́тающая ЭЛТ ( со знаковой индикацией) — character-display CRT, shaped-beam tubeиндика́торная ЭЛТ — radar display [radar indicator] CRTосциллографи́ческая ЭЛТ — oscilloscope CRTЭЛТ прямо́го ви́дения — electrical-to-visual [display, direct-view] storage tubeЭЛТ с барье́рной се́ткой — barrier-grid tubeЭЛТ с за́писью тё́мной тра́ссой — dark-trace CRTЭЛТ с послеускоре́нием луча́ — postacceleration [PA] CRTтелевизио́нная, приё́мная ЭЛТ — (TV) picture tube, kinescopeЭЛТ ти́па «графеко́н» — scan-conversion tube* * * -
15 электроннолучевая трубка
1) Naval: oscilloscope2) Engineering: cam-deflection tube, cathode ray tube, cathode tube, electron-ray tube3) Railway term: charactron (воспроизводящая на своем экране печатные буквы)4) Metallurgy: tube5) Physics: cathode-ray tube6) Astronautics: electron-beam tube, scope7) Makarov: electron gun, electron valveУниверсальный русско-английский словарь > электроннолучевая трубка
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16 Braunsche Röhre
f TECH. cathode-ray tube* * *Braun|sche Röh|re ['braunʃə-]f (TECH)cathode-ray tube* * ** * *f.oscilloscope n. -
17 Bildschirmausgabe
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18 Sichtgerät
Sichtgerät n DAT display device, visual display unit, VDU, video display unit, terminal, display (unit); CRT [cathode-ray tube] display system; indicator; oscilloscopeDeutsch-Englisch Wörterbuch der Elektrotechnik und Elektronik > Sichtgerät
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19 электроннолучевой
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20 электроннолучевой
Русско-английский словарь по информационным технологиям > электроннолучевой
См. также в других словарях:
oscilloscope — [ ɔsilɔskɔp ] n. m. • 1900; de osciller et scope ♦ Métrol. Appareil de mesure permettant de visualiser sur un écran cathodique les variations d une tension. Oscilloscope à mémoire, numérique. ● oscilloscope nom masculin Appareil permettant de… … Encyclopédie Universelle
oscilloscope — os*cil lo*scope, n. [L. oscillare to swing + scope.] An electronic measuring instrument which provides a visual representation of the time variation of electrical quantities, such as voltage or current. It may be used to measure the shape of a… … The Collaborative International Dictionary of English
tube — [ tyb ] n. m. • 1611; « voûte » mot région. (Nord) 1453; lat. tubus 1 ♦ Appareil de forme cylindrique, ou conduit à section circulaire, généralement rigide (verre, quartz, plastique, métal), ouvert à une extrémité ou aux deux. Calibre d un tube.… … Encyclopédie Universelle
Tube de kundt — Tubes à impédance (nouvelle génération du tube de Kundt) Le tube de Kundt, nommé d après son inventeur (August Kundt), est un dispositif expérimental permettant de mettre en évidence les ondes stationnaires sonores dans un tube rempli d air. Le… … Wikipédia en Français
oscilloscope — ► NOUN ▪ a device for viewing oscillations by a display on the screen of a cathode ray tube … English terms dictionary
oscilloscope — [ə sil′əskōp΄, äs′ə lōskōp΄] n. [< L oscillare, to swing + SCOPE] a type of oscillograph that visually displays an electrical wave on a fluorescent screen, as of a cathode ray tube oscilloscopic [ə sil′əskäp′ik, äs′ə lōskäp′ik] adj … English World dictionary
Oscilloscope types — This is a subdivision of the Oscilloscope article, discussing the various types and models of oscilloscopes in greater detail. Contents 1 Cathode ray oscilloscope (CRO) 1.1 Dual beam oscilloscope 2 Analog storage oscilloscope … Wikipedia
Oscilloscope — This article is about current oscilloscopes, providing general information. For history of oscilloscopes, see Oscilloscope history. For detailed information about various types of oscilloscopes, see Oscilloscope types. Illustration showing the… … Wikipedia
Oscilloscope history — This article discusses the history and gradual development of the Oscilloscope. Contents 1 Hand drawn oscillograms 2 Automatic paper drawn oscillograph 3 Photographic oscillograph 4 … Wikipedia
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Oscilloscope — Un oscilloscope est un instrument de mesure destiné à visualiser un signal électrique, le plus souvent variable au cours du temps. Il est utilisé par de nombreux scientifiques afin de visualiser soit des tensions électriques, soit diverses autres … Wikipédia en Français