-
1 lamp communication
Военный термин: светосигнальная связь -
2 lamp
1. [læmp] n1. лампа; фонарьelectric [oil] lamp - электрическая [керосиновая] лампа
head lamp - авт. фара
alcohol /spirit/ lamp - спиртовка
lamp oil - а) керосин, осветительное масло; б) образн. работа по ночам
lamp house - горн. ламповая
lamp communication - воен. светосигнальная связь
2. поэт. светильник; лампада; факел3. поэт. светило4. свет (ума, красоты, надежды); светильник ( разума)5. pl сл. глаза, «гляделки»♢
smelling of the lamp - вымученный (о стиле, слоге)2. [læmp] vto hand /to pass/ on the lamp - передавать знания /традиции/, продолжать дело и т. п.
1. освещать2. светить; сиять3. сл. таращить глаза -
3 светосигнальная связь
Military: lamp communicationУниверсальный русско-английский словарь > светосигнальная связь
-
4 light
свет имя существительное:освещенность (illumination, light, luminosity)зажженная свеча, лампа и т.п. (light)глагол:растапливать (melt, light, thaw)неожиданно обрушиться (light, light upon)неожиданно натолкнуться (light, light upon)имя прилагательное: наречие: -
5 Stephenson, George
[br]b. 9 June 1781 Wylam, Northumberland, Englandd. 12 August 1848 Tapton House, Chesterfield, England[br]English engineer, "the father of railways".[br]George Stephenson was the son of the fireman of the pumping engine at Wylam colliery, and horses drew wagons of coal along the wooden rails of the Wylam wagonway past the house in which he was born and spent his earliest childhood. While still a child he worked as a cowherd, but soon moved to working at coal pits. At 17 years of age he showed sufficient mechanical talent to be placed in charge of a new pumping engine, and had already achieved a job more responsible than that of his father. Despite his position he was still illiterate, although he subsequently learned to read and write. He was largely self-educated.In 1801 he was appointed Brakesman of the winding engine at Black Callerton pit, with responsibility for lowering the miners safely to their work. Then, about two years later, he became Brakesman of a new winding engine erected by Robert Hawthorn at Willington Quay on the Tyne. Returning collier brigs discharged ballast into wagons and the engine drew the wagons up an inclined plane to the top of "Ballast Hill" for their contents to be tipped; this was one of the earliest applications of steam power to transport, other than experimentally.In 1804 Stephenson moved to West Moor pit, Killingworth, again as Brakesman. In 1811 he demonstrated his mechanical skill by successfully modifying a new and unsatisfactory atmospheric engine, a task that had defeated the efforts of others, to enable it to pump a drowned pit clear of water. The following year he was appointed Enginewright at Killingworth, in charge of the machinery in all the collieries of the "Grand Allies", the prominent coal-owning families of Wortley, Liddell and Bowes, with authorization also to work for others. He built many stationary engines and he closely examined locomotives of John Blenkinsop's type on the Kenton \& Coxlodge wagonway, as well as those of William Hedley at Wylam.It was in 1813 that Sir Thomas Liddell requested George Stephenson to build a steam locomotive for the Killingworth wagonway: Blucher made its first trial run on 25 July 1814 and was based on Blenkinsop's locomotives, although it lacked their rack-and-pinion drive. George Stephenson is credited with building the first locomotive both to run on edge rails and be driven by adhesion, an arrangement that has been the conventional one ever since. Yet Blucher was far from perfect and over the next few years, while other engineers ignored the steam locomotive, Stephenson built a succession of them, each an improvement on the last.During this period many lives were lost in coalmines from explosions of gas ignited by miners' lamps. By observation and experiment (sometimes at great personal risk) Stephenson invented a satisfactory safety lamp, working independently of the noted scientist Sir Humphry Davy who also invented such a lamp around the same time.In 1817 George Stephenson designed his first locomotive for an outside customer, the Kilmarnock \& Troon Railway, and in 1819 he laid out the Hetton Colliery Railway in County Durham, for which his brother Robert was Resident Engineer. This was the first railway to be worked entirely without animal traction: it used inclined planes with stationary engines, self-acting inclined planes powered by gravity, and locomotives.On 19 April 1821 Stephenson was introduced to Edward Pease, one of the main promoters of the Stockton \& Darlington Railway (S \& DR), which by coincidence received its Act of Parliament the same day. George Stephenson carried out a further survey, to improve the proposed line, and in this he was assisted by his 18-year-old son, Robert Stephenson, whom he had ensured received the theoretical education which he himself lacked. It is doubtful whether either could have succeeded without the other; together they were to make the steam railway practicable.At George Stephenson's instance, much of the S \& DR was laid with wrought-iron rails recently developed by John Birkinshaw at Bedlington Ironworks, Morpeth. These were longer than cast-iron rails and were not brittle: they made a track well suited for locomotives. In June 1823 George and Robert Stephenson, with other partners, founded a firm in Newcastle upon Tyne to build locomotives and rolling stock and to do general engineering work: after its Managing Partner, the firm was called Robert Stephenson \& Co.In 1824 the promoters of the Liverpool \& Manchester Railway (L \& MR) invited George Stephenson to resurvey their proposed line in order to reduce opposition to it. William James, a wealthy land agent who had become a visionary protagonist of a national railway network and had seen Stephenson's locomotives at Killingworth, had promoted the L \& MR with some merchants of Liverpool and had carried out the first survey; however, he overreached himself in business and, shortly after the invitation to Stephenson, became bankrupt. In his own survey, however, George Stephenson lacked the assistance of his son Robert, who had left for South America, and he delegated much of the detailed work to incompetent assistants. During a devastating Parliamentary examination in the spring of 1825, much of his survey was shown to be seriously inaccurate and the L \& MR's application for an Act of Parliament was refused. The railway's promoters discharged Stephenson and had their line surveyed yet again, by C.B. Vignoles.The Stockton \& Darlington Railway was, however, triumphantly opened in the presence of vast crowds in September 1825, with Stephenson himself driving the locomotive Locomotion, which had been built at Robert Stephenson \& Co.'s Newcastle works. Once the railway was at work, horse-drawn and gravity-powered traffic shared the line with locomotives: in 1828 Stephenson invented the horse dandy, a wagon at the back of a train in which a horse could travel over the gravity-operated stretches, instead of trotting behind.Meanwhile, in May 1826, the Liverpool \& Manchester Railway had successfully obtained its Act of Parliament. Stephenson was appointed Engineer in June, and since he and Vignoles proved incompatible the latter left early in 1827. The railway was built by Stephenson and his staff, using direct labour. A considerable controversy arose c. 1828 over the motive power to be used: the traffic anticipated was too great for horses, but the performance of the reciprocal system of cable haulage developed by Benjamin Thompson appeared in many respects superior to that of contemporary locomotives. The company instituted a prize competition for a better locomotive and the Rainhill Trials were held in October 1829.Robert Stephenson had been working on improved locomotive designs since his return from America in 1827, but it was the L \& MR's Treasurer, Henry Booth, who suggested the multi-tubular boiler to George Stephenson. This was incorporated into a locomotive built by Robert Stephenson for the trials: Rocket was entered by the three men in partnership. The other principal entrants were Novelty, entered by John Braithwaite and John Ericsson, and Sans Pareil, entered by Timothy Hackworth, but only Rocket, driven by George Stephenson, met all the organizers' demands; indeed, it far surpassed them and demonstrated the practicability of the long-distance steam railway. With the opening of the Liverpool \& Manchester Railway in 1830, the age of railways began.Stephenson was active in many aspects. He advised on the construction of the Belgian State Railway, of which the Brussels-Malines section, opened in 1835, was the first all-steam railway on the European continent. In England, proposals to link the L \& MR with the Midlands had culminated in an Act of Parliament for the Grand Junction Railway in 1833: this was to run from Warrington, which was already linked to the L \& MR, to Birmingham. George Stephenson had been in charge of the surveys, and for the railway's construction he and J.U. Rastrick were initially Principal Engineers, with Stephenson's former pupil Joseph Locke under them; by 1835 both Stephenson and Rastrick had withdrawn and Locke was Engineer-in-Chief. Stephenson remained much in demand elsewhere: he was particularly associated with the construction of the North Midland Railway (Derby to Leeds) and related lines. He was active in many other places and carried out, for instance, preliminary surveys for the Chester \& Holyhead and Newcastle \& Berwick Railways, which were important links in the lines of communication between London and, respectively, Dublin and Edinburgh.He eventually retired to Tapton House, Chesterfield, overlooking the North Midland. A man who was self-made (with great success) against colossal odds, he was ever reluctant, regrettably, to give others their due credit, although in retirement, immensely wealthy and full of honour, he was still able to mingle with people of all ranks.[br]Principal Honours and DistinctionsPresident, Institution of Mechanical Engineers, on its formation in 1847. Order of Leopold (Belgium) 1835. Stephenson refused both a knighthood and Fellowship of the Royal Society.Bibliography1815, jointly with Ralph Dodd, British patent no. 3,887 (locomotive drive by connecting rods directly to the wheels).1817, jointly with William Losh, British patent no. 4,067 (steam springs for locomotives, and improvements to track).Further ReadingL.T.C.Rolt, 1960, George and Robert Stephenson, Longman (the best modern biography; includes a bibliography).S.Smiles, 1874, The Lives of George and Robert Stephenson, rev. edn, London (although sycophantic, this is probably the best nineteenthcentury biography).PJGR -
6 ACL
1) Компьютерная техника: Audit Command Language2) Геология: The American Classical League3) Морской термин: anti-collision light( сокр.) (навигационный огонь, огонь для предупреждения столкновений)4) Медицина: A Changed Life, anterior cruciate ligament5) Военный термин: Access Control Level, Aircraft Cabin Load, Allowable Cabin Load, Atlantic coast line, advanced concept laboratory, aircraft circular letter, aircraft control link, allowable cargo load, allowable container load, authorized consumption list, aviation circular letter, aeronautical computer laboratory( сокр.) (лаборатория авиационных вычислительных машин)7) Шутливое выражение: Another Classless Laker8) Религия: Academy For Church Leadership, Authentic Christian Living9) Железнодорожный термин: CSX Transportation Incorporated10) Юридический термин: Australian Current Law11) Грубое выражение: Ass Crack Licker12) Испанский язык: Чилийская академия языкознания (сокр. от Academia Chilena de la Lengua = Chilean Academy of Linguistics)13) Телекоммуникации: Average Call Length14) Сокращение: Action Centered Leadership, Address Correction Letter test (Wilmington DE, Apr '92, printed CFS address changes), Advanced Cmos Logic, Advanced Computing Laboratory, Avionics Cooling Loop, Association for Computational Linguistics, Amateur Cinema League of America (Американская лига кинолюбителей), American Classical League (Американская лига классической филологии), Association of Cinema Laboratories (Ассоциация кинолабораторий (США)), allowable cabin load (допустимая загрузка (салона) самолёта), acceptance [acceptable] quality level (приемлемое качество, приемлемый процент годности)15) Физиология: Anterior Clavicular Line16) Хирургия: anterior cross-shaped ligament, anterior cruciform ligament17) Электроника: Active Current Loop, Aliasing Controlling Language18) Вычислительная техника: Association for Computer Linguistics, Agent Control Language (Agents), Access Control List (DCE, DFS, NDS, AD), (MS) Access Compatibility Layer (MS, DB), Association for Computational Linguistics (organization, USA), access control list (список управления доступом), agent communication language (язык общения агентов), контрольный список для проверки числа пользователей в сети19) Нефть: Alternate Concentration Limit (An alternative to the concentration limit set by EPA or a state for a particular hazardous substance or waste)20) Иммунология: anticardiolipin21) Португальский язык: Академия литературы в Рио-де-Жанейро (Бразилия) (сокр. от Academia Carioca de Letras = Rio de Janeiro Academy of Letters), Лиссабонская королевская академия наук (сокр. от Academia das Ciências de Lisbõa = Lisbon Royal Academy of Sciences)22) Транспорт: Angels Crucial Leg23) Силикатное производство: applied ceramic color label or lettering24) Фирменный знак: Automotive Components Limited25) Глоссарий компании Сахалин Энерджи: approved contractor list26) Сетевые технологии: Agent Communication Language, authorization control list, контрольный список для санкционирования доступа, список контроля доступа, список управления доступом27) Автоматика: autonomous control logic28) Химическое оружие: All Critical Learning29) Военно-морской флот: automatic carrier landing (автоматическая посадка (самолётов) на авианосец)30) Безопасность: access level31) Расширение файла: Access Control List, Application Control Language, Automatic Circuit Layout, Keyboard accelerator (Corel Draw 6), Asynchronous Connection-Less (link)32) Светотехника: AirCraft Lamp (тип источников света, дающих четкие лучи)33) Нефть и газ: Approved Chemicals List (Список химических реагентов одобренных к использованию на предприятии)34) Электротехника: armored cable, lead-sheath35) NYSE. Ace, Ltd. -
7 aCL
1) Компьютерная техника: Audit Command Language2) Геология: The American Classical League3) Морской термин: anti-collision light( сокр.) (навигационный огонь, огонь для предупреждения столкновений)4) Медицина: A Changed Life, anterior cruciate ligament5) Военный термин: Access Control Level, Aircraft Cabin Load, Allowable Cabin Load, Atlantic coast line, advanced concept laboratory, aircraft circular letter, aircraft control link, allowable cargo load, allowable container load, authorized consumption list, aviation circular letter, aeronautical computer laboratory( сокр.) (лаборатория авиационных вычислительных машин)7) Шутливое выражение: Another Classless Laker8) Религия: Academy For Church Leadership, Authentic Christian Living9) Железнодорожный термин: CSX Transportation Incorporated10) Юридический термин: Australian Current Law11) Грубое выражение: Ass Crack Licker12) Испанский язык: Чилийская академия языкознания (сокр. от Academia Chilena de la Lengua = Chilean Academy of Linguistics)13) Телекоммуникации: Average Call Length14) Сокращение: Action Centered Leadership, Address Correction Letter test (Wilmington DE, Apr '92, printed CFS address changes), Advanced Cmos Logic, Advanced Computing Laboratory, Avionics Cooling Loop, Association for Computational Linguistics, Amateur Cinema League of America (Американская лига кинолюбителей), American Classical League (Американская лига классической филологии), Association of Cinema Laboratories (Ассоциация кинолабораторий (США)), allowable cabin load (допустимая загрузка (салона) самолёта), acceptance [acceptable] quality level (приемлемое качество, приемлемый процент годности)15) Физиология: Anterior Clavicular Line16) Хирургия: anterior cross-shaped ligament, anterior cruciform ligament17) Электроника: Active Current Loop, Aliasing Controlling Language18) Вычислительная техника: Association for Computer Linguistics, Agent Control Language (Agents), Access Control List (DCE, DFS, NDS, AD), (MS) Access Compatibility Layer (MS, DB), Association for Computational Linguistics (organization, USA), access control list (список управления доступом), agent communication language (язык общения агентов), контрольный список для проверки числа пользователей в сети19) Нефть: Alternate Concentration Limit (An alternative to the concentration limit set by EPA or a state for a particular hazardous substance or waste)20) Иммунология: anticardiolipin21) Португальский язык: Академия литературы в Рио-де-Жанейро (Бразилия) (сокр. от Academia Carioca de Letras = Rio de Janeiro Academy of Letters), Лиссабонская королевская академия наук (сокр. от Academia das Ciências de Lisbõa = Lisbon Royal Academy of Sciences)22) Транспорт: Angels Crucial Leg23) Силикатное производство: applied ceramic color label or lettering24) Фирменный знак: Automotive Components Limited25) Глоссарий компании Сахалин Энерджи: approved contractor list26) Сетевые технологии: Agent Communication Language, authorization control list, контрольный список для санкционирования доступа, список контроля доступа, список управления доступом27) Автоматика: autonomous control logic28) Химическое оружие: All Critical Learning29) Военно-морской флот: automatic carrier landing (автоматическая посадка (самолётов) на авианосец)30) Безопасность: access level31) Расширение файла: Access Control List, Application Control Language, Automatic Circuit Layout, Keyboard accelerator (Corel Draw 6), Asynchronous Connection-Less (link)32) Светотехника: AirCraft Lamp (тип источников света, дающих четкие лучи)33) Нефть и газ: Approved Chemicals List (Список химических реагентов одобренных к использованию на предприятии)34) Электротехника: armored cable, lead-sheath35) NYSE. Ace, Ltd. -
8 Preece, Sir William Henry
[br]b. 15 February 1834 Bryn Helen, Gwynedd, Walesd. 6 November 1913 Penrhos, Gwynedd, Wales[br]Welsh electrical engineer who greatly furthered the development and use of wireless telegraphy and the telephone in Britain, dominating British Post Office engineering during the last two decades of the nineteenth century.[br]After education at King's College, London, in 1852 Preece entered the office of Edwin Clark with the intention of becoming a civil engineer, but graduate studies at the Royal Institution under Faraday fired his enthusiasm for things electrical. His earliest work, as connected with telegraphy and in particular its application for securing the safe working of railways; in 1853 he obtained an appointment with the Electric and National Telegraph Company. In 1856 he became Superintendent of that company's southern district, but four years later he moved to telegraph work with the London and South West Railway. From 1858 to 1862 he was also Engineer to the Channel Islands Telegraph Company. When the various telegraph companies in Britain were transferred to the State in 1870, Preece became a Divisional Engineer in the General Post Office (GPO). Promotion followed in 1877, when he was appointed Chief Electrician to the Post Office. One of the first specimens of Bell's telephone was brought to England by Preece and exhibited at the British Association meeting in 1877. From 1892 to 1899 he served as Engineer-in-Chief to the Post Office. During this time he made a number of important contributions to telegraphy, including the use of water as part of telegraph circuits across the Solent (1882) and the Bristol Channel (1888). He also discovered the existence of inductive effects between parallel wires, and with Fleming showed that a current (thermionic) flowed between the hot filament and a cold conductor in an incandescent lamp.Preece was distinguished by his administrative ability, some scientific insight, considerable engineering intuition and immense energy. He held erroneous views about telephone transmission and, not accepting the work of Oliver Heaviside, made many errors when planning trunk circuits. Prior to the successful use of Hertzian waves for wireless communication Preece carried out experiments, often on a large scale, in attempts at wireless communication by inductive methods. These became of historic interest only when the work of Maxwell and Hertz was developed by Guglielmo Marconi. It is to Preece that credit should be given for encouraging Marconi in 1896 and collaborating with him in his early experimental work on radio telegraphy.While still employed by the Post Office, Preece contributed to the development of numerous early public electricity schemes, acting as Consultant and often supervising their construction. At Worcester he was responsible for Britain's largest nineteenth-century public hydro-electric station. He received a knighthood on his retirement in 1899, after which he continued his consulting practice in association with his two sons and Major Philip Cardew. Preece contributed some 136 papers and printed lectures to scientific journals, ninety-nine during the period 1877 to 1894.[br]Principal Honours and DistinctionsCB 1894. Knighted (KCB) 1899. FRS 1881. President, Society of Telegraph Engineers, 1880. President, Institution of Electrical Engineers 1880, 1893. President, Institution of Civil Engineers 1898–9. Chairman, Royal Society of Arts 1901–2.BibliographyPreece produced numerous papers on telegraphy and telephony that were presented as Royal Institution Lectures (see Royal Institution Library of Science, 1974) or as British Association reports.1862–3, "Railway telegraphs and the application of electricity to the signaling and working of trains", Proceedings of the ICE 22:167–93.Eleven editions of Telegraphy (with J.Sivewright), London, 1870, were published by 1895.1883, "Molecular radiation in incandescent lamps", Proceedings of the Physical Society 5: 283.1885. "Molecular shadows in incandescent lamps". Proceedings of the Physical Society 7: 178.1886. "Electric induction between wires and wires", British Association Report. 1889, with J.Maier, The Telephone.1894, "Electric signalling without wires", RSA Journal.1898, "Aetheric telegraphy", Proceedings of the Institution of Electrical Engineers.Further ReadingJ.J.Fahie, 1899, History of Wireless Telegraphy 1838–1899, Edinburgh: Blackwood. E.Hawkes, 1927, Pioneers of Wireless, London: Methuen.E.C.Baker, 1976, Sir William Preece, F.R.S. Victorian Engineer Extraordinary, London (a detailed biography with an appended list of his patents, principal lectures and publications).D.G.Tucker, 1981–2, "Sir William Preece (1834–1913)", Transactions of the Newcomen Society 53:119–36 (a critical review with a summary of his consultancies).GW / KFBiographical history of technology > Preece, Sir William Henry
-
9 duplex
ˈdju:pleks прил. двухсторонний;
двойной, парный, сдвоенный, спаренный;
дуплексный duplex apartment ≈ амер. квартира, расположенная в двух этажах с внутренней лестницей duplex house ≈ двухквартирный дом Syn: paired, coupled( специальное) дуплекс (биология) двойная спираль (молекула ДНК) двойной, спаренный - * apartment (американизм) квартира, расположенная в двух этажах (с внутренней лестницей) - * house двухквартирный дом, дом на две семьи - * lamp двухфитильная лампа - * DNA (биохимия) двойная спираль ДНК, двунитевая /двуспиральная/ ДНК - * paper двухцветная бумага( специальное) дуплексный, двусторонний - * communication дуплексная связь - * channel двусторонний канал (связи и т. п.) - * process дуплекс-процесс duplex вчт. двусторонний ~ двусторонний ~ двухсторонний;
спаренный, двойной;
duplex house двухквартирный дом;
duplex apartment амер. квартира, расположенная в двух этажах с внутренней лестницей ~ дублированный ~ вчт. дуплексный ~ дуплексный ~ двухсторонний;
спаренный, двойной;
duplex house двухквартирный дом;
duplex apartment амер. квартира, расположенная в двух этажах с внутренней лестницей ~ двухсторонний;
спаренный, двойной;
duplex house двухквартирный дом;
duplex apartment амер. квартира, расположенная в двух этажах с внутренней лестницей house: duplex ~ двухквартирный дом duplex ~ дом на две семьи -
10 duplex
1. [ʹdju:pleks] n1. спец. дуплекс2. биол. двойная спираль ( молекула ДНК)2. [ʹdju:pleks] a1) двойной, спаренныйduplex apartment - амер. квартира, расположенная в двух этажах ( с внутренней лестницей)
duplex house - двухквартирный дом, дом на две семьи
duplex DNA - биохим. двойная спираль ДНК, двунитевая /двуспиральная/ ДНК
2) спец. дуплексный, двустороннийduplex channel - двусторонний канал (связи и т. п.)
duplex process - метал. дуплекс-процесс
-
11 helmet
1) каска
2) шлем
3) шлемовый
– communication helmet
– crash helmet
– helmet lamp
– helmet visor
– pressure helmet
– pressurized helmet
– safety helmet
– welder's helmet -
12 amplifier
1) усилитель2) приемник ( прямого усиления)•- acoustic amplifier
- adder amplifier
- all-pass amplifier
- all-purpose amplifier
- all-radial amplifier
- antenna amplifier
- aperiodic amplifier
- audio-distribution amplifier
- audio-frequency amplifier
- audio-video amplifier
- automatic stereophonic recording amplifier
- auxiliary amplifier
- AV-amplifier
- average power amplifier
- backward-wave amplifier
- B-amplifier
- bandpass amplifier
- base amplifier
- beam-parametric amplifier
- binaural-power amplifier
- bioelectric-potential amplifier
- bistable amplifier
- bootstrap amplifier
- branching amplifier
- bridge magnetic amplifier
- bridging amplifier
- broadband amplifier
- broadcasting amplifier
- buck-boost amplifier
- buffer amplifier
- bullet amplifier
- burst amplifier
- calibrated amplifier
- camera amplifier
- capacitor-coupled amplifier
- carrier amplifier
- cascade-coupled amplifier
- cascaded amplifier
- cathode-coupled amplifier
- cavity-type diode amplifier
- ceramic amplifier
- channel amplifier
- choke amplifier
- chopper-stabilized amplifier
- chroma-bandpass amplifier
- chrominance amplifier
- clamped amplifier
- class-A amplifier
- class-AB amplifier
- class-B amplifier
- class-C amplifier
- class-D amplifier
- class-E amplifier
- class-F amplifier
- clipper amplifier
- coaxial amplifier
- coherent-light amplifier
- coincidence amplifier
- cold-cathode amplifier
- color-burst amplifier
- common-collector amplifier
- common-drain amplifier
- common-emitter amplifier
- common-gate amplifier
- common-source amplifier
- compensated amplifier
- compressor amplifier
- conference amplifier
- continuous-signal amplifier
- controlled amplifier
- controlling amplifier
- convertor amplifier
- correcting-antenna amplifier
- coupling amplifier
- cross-field amplifier
- current amplifier
- dc amplifier
- dc power amplifier
- dc restoration amplifier
- deflection amplifier
- degenerate amplifier
- degenerative amplifier
- delay amplifier
- dielectric amplifier
- differential amplifier
- differentiating amplifier
- differentiation amplifier
- digital sound processor amplifier
- digital sound-field processor amplifier
- digitally-controlled amplifier
- diode amplifier
- direct resistance-coupled amplifier
- direct-communication amplifier
- distribution amplifier
- DMB-amplifier
- Doherty amplifier
- double-circuit amplifier
- double-stream amplifier
- double-tuned amplifier
- drift-compensated amplifier
- drift-corrected amplifier
- drift-free amplifier
- driver amplifier
- dual-operational amplifier
- dual-trace amplifier
- duct amplifier
- duplex amplifier
- earlike-response amplifier
- electric-organ amplifier
- electrometric amplifier
- electron-beam amplifier
- electronically-tunable amplifier
- electron-tube amplifier
- elementary amplifier
- end amplifier
- error amplifier
- error-signal amplifier
- extender amplifier
- fader amplifier
- fast-operating amplifier
- feedback amplifier
- feedforward amplifier
- ferrite amplifier
- ferromagnetic amplifier
- fiber-optic system amplifier
- field amplifier
- field-input amplifier
- filter amplifier
- final amplifier
- fixed-gain amplifier
- flat amplifier
- flat-staggered amplifier
- flip-flop amplifier
- follow-up amplifier
- forming amplifier
- forward-wave amplifier
- four-channel power amplifier
- four-stage amplifier
- frame amplifier
- frequency-selective amplifier
- functional amplifier
- gain-matched amplifier
- gain-stabilized amplifier
- galvanic amplifier
- G-amplifier
- gated amplifier
- generator amplifier
- grounded-anode amplifier
- grounded-base amplifier
- grounded-cathode amplifier
- grounded-collector amplifier
- grounded-drain amplifier
- grounded-emitter amplifier
- grounded-gate amplifier
- grounded-grid amplifier
- grounded-plate amplifier
- group amplifier
- group reception amplifier
- group transmission amplifier
- guitar amplifier
- Gunn amplifier
- half-wave amplifier
- head amplifier
- heterodyne amplifier
- Hi-Fi amplifier
- high-current power amplifier
- high-frequency amplifier
- home theater amplifier
- horizontal amplifier
- IF amplifier
- image amplifier
- image-rejecting intermediate amplifier
- IMPATT amplifier
- inductance amplifier
- input amplifier
- instrumentation amplifier
- integrated amplifier
- integrating amplifier
- intensity amplifier
- intermediate-frequency amplifier
- intermediate-power amplifier
- interphone amplifier
- inverting amplifier
- isolating amplifier
- klystron amplifier
- laser amplifier
- launch amplifier
- light amplifier
- limiter amplifier
- limiting amplifier
- line amplifier
- line frequency amplifier
- line power amplifier
- line voltage amplifier
- linear amplifier
- lin-log amplifier
- listening amplifier
- lock-in amplifier
- locomotive receiver amplifier
- logarithmic amplifier
- loud-speaking announcement amplifier
- low-frequency amplifier
- low-noise amplifier
- low-power amplifier
- luminance amplifier
- magnetic amplifier
- magnetron amplifier
- main amplifier
- maser amplifier
- master oscillator amplifier
- matched amplifier
- matrix amplifier
- measuring amplifier
- microphone amplifier
- microstrip amplifier
- microwave amplifier
- mixing amplifier
- modulated amplifier
- monaural power amplifier
- monitoring amplifier
- monolithic amplifier
- multichannel amplifier
- multistage amplifier
- narrow-band amplifier
- narrow-gate amplifier
- n-channel amplifier
- negative resistance amplifier
- negatron amplifier
- noiseless amplifier
- noise-suppressing amplifier
- noncooled amplifier
- nondegenerate amplifier
- noninverting amplifier
- nonlinear amplifier
- note amplifier
- n-stage amplifier
- operating amplifier
- operation amplifier
- optical amplifier
- optoelectronic amplifier
- output amplifier
- overdriven amplifier
- packaged amplifier
- paging amplifier
- parallel amplifier
- paramagnetic amplifier
- parametric amplifier
- paraphase amplifier
- peaked amplifier
- personal tone amplifier
- phase sensor amplifier
- photocurrent amplifier
- pip amplifier
- plasma amplifier
- playback amplifier
- plug-in amplifier
- power amplifier
- precision amplifier
- printed-circuit amplifier
- processing amplifier
- program amplifier
- pulse-distribution amplifier
- push-pull electret amplifier
- push-pull magnetic amplifier
- quadrature amplifier
- quantum amplifier
- radio-frequency amplifier
- Raman amplifier
- R-amplifier
- RC-coupled amplifier
- reactance amplifier
- read amplifier
- reception amplifier
- reciprocal amplifier
- recording amplifier
- recuperative amplifier
- reflecting amplifier
- regenerative amplifier
- remote-tuned amplifier
- repeating amplifier
- reproducing amplifier
- resistance-capacitance amplifier
- resonance amplifier
- resonant amplifier
- reversed-feedback amplifier
- RF-amplifier
- rotary amplifier
- rotating amplifier
- running wave lamp amplifier
- saturated amplifier
- selective amplifier
- self-feedback amplifier
- sense amplifier
- separate amplifier
- series amplifier
- sharpener amplifier
- SHF-amplifier
- signal-shaping amplifier
- simplest amplifier
- simplex amplifier
- single-ended amplifier
- single-frequency amplifier
- single-section amplifier
- single-sideband amplifier
- single-sided amplifier
- single-stage amplifier
- single-step amplifier
- single-tuned amplifier
- slicer amplifier
- solid-state amplifier
- sound frequency amplifier
- source-follower amplifier
- speech amplifier
- square-low amplifier
- square-wave amplifier
- stabilized amplifier
- stable amplifier
- stagger-tuned amplifier
- stereo/mono power amplifier
- straight amplifier
- strip-line amplifier
- studio amplifier
- subscriber amplifier
- Suhl amplifier
- summing amplifier
- super-recuperative amplifier
- supersonic amplifier
- surface-acoustic-wave amplifier
- sweep amplifier
- tandem amplifier
- tapered amplifier
- telephone-repeater amplifier
- terminal amplifier
- TFT-amplifier
- threshold amplifier
- time-shared amplifier
- track-and-hold amplifier
- transceiving amplifier
- transferred-electron amplifier
- transformer amplifier
- transformer-coupled amplifier
- transimpedance amplifier
- transistor amplifier
- transmission-type amplifier
- transmitter amplifier
- traveling wave amplifier
- tuned amplifier
- tunnel diode amplifier
- TV-antenna amplifier
- two-channel playback amplifier
- two-step amplifier
- two-way amplifier
- ultralinear amplifier
- unloading amplifier
- untapered amplifier
- utility video amplifier
- vacuum-tube amplifier
- valve amplifier
- variable transmitter amplifier
- video amplifier
- video-frequency amplifier
- voltage amplifier
- voltage-controlled amplifier
- volume-limiting amplifier
- vortex amplifier
- wide-band amplifier
- writing amplifier
- X-amplifier
- X-axis amplifier
- Y-amplifier
- Y-axis amplifier
- zero-phase drift amplifierEnglish-Russian dictionary of telecommunications and their abbreviations > amplifier
-
13 circuit
1) схема; цепь; контур2) линия3) канал4) сеть•- adapter circuit
- adjustment circuit
- alive circuit
- announcing circuit
- anode circuit
- antisidetone circuit
- asynchronous circuit
- automatic reset-data circuit
- automatic ringdown circuit
- automatic start circuit
- auxiliary circuit
- balanced circuit
- balanced-wire circuit
- balancing circuit
- band-switching circuit
- basic circuit
- black-level restoring circuit
- black-level stretch circuit
- bootstrap circuit
- branch circuit
- branched circuit
- bridge antisidetone circuit
- building-out circuit
- built-up circuit
- Buttler circuit
- bypass circuit
- cached circuit
- call circuit
- capacitor-coupled circuit
- capacitor-switched circuit
- capacitor-switching circuit
- central-battery circuit
- chain-type connection circuit
- character generator large-scale integration circuit
- charge-coupled device circuit
- check parity circuit
- checkout circuit
- chrominance matrix circuit
- chrominance separation circuit
- chrominance takeoff circuit
- clamp-on circuit
- closed circuit
- coarse phasing circuit
- coaxial circuit
- coincidence circuit
- color-balance circuit
- color-indexing circuit
- color-purity circuit
- combinational-circuit circuit
- combined-supply circuit
- common-base circuit
- common-battery circuit
- common-collector circuit
- common-drain circuit
- common-emitter circuit
- common-gate circuit
- common-source circuit
- common-user circuit
- communication circuit
- comparing circuit
- compensating antisidetone circuit
- complemental metal-oxide-semiconductor circuit
- composite circuit
- conductor-bundled static wire circuit
- conference circuit
- connecting circuit
- constant-closed circuit
- contactor-relay circuit
- continental circuit
- convergence circuit
- cord circuit
- correcting circuit
- Costas circuit
- counter-coupling circuit
- counting-down circuit
- coupled circuit
- cross-bus matrix circuit
- crossed-waveguide circuit
- cue circuit
- cutoff circuit
- Darlingtone circuit
- data circuit
- data-transmission circuit
- dc restoration circuit
- decoder circuit
- delay circuit
- demodulation circuit
- dial-up circuit
- diamond circuit
- differencing circuit
- differential-frequency circuit
- digital circuit
- digital-excitation circuit
- digital-leased circuit
- diode-clamping circuit
- diode-clipping circuit
- diode-stabilitron circuit
- direct international circuit
- direct-connection circuit
- direct-transit international circuit
- direct-wire circuit
- double half-wave circuit
- double-ended cord circuit
- double-loop circuit
- dual circuit
- earth circuit
- earthed circuit
- echo-absorption circuit
- edge derivation circuit
- electric circuit
- electronic circuit
- elementary circuit
- encoding circuit
- energized circuit
- engineering circuit
- equivalent circuit
- error-subtracting circuit
- external circuit
- fallback circuit
- feed circuit
- feedback circuit
- fiber-optic circuit
- fire-control circuit
- fixed-virtual circuit
- flexible circuit
- flexible-stage circuit
- flywheel circuit
- forked circuit
- four-wire circuit
- frame scanning circuit
- frequency-changing circuit
- frequency-protection circuit
- full-accessible circuit
- full-period allocated circuit
- functional-switching circuit
- gallium-arsenide integrated circuit
- gating circuit
- generating circuit
- Gilbert circuit
- Grets circuit
- grid circuit
- ground-return circuit
- grouping circuit
- half-bridge circuit
- half-wave circuit
- hardened circuit
- head circuit
- HF-correction circuit
- holding circuit
- horizontal deflection circuit
- hybrid circuit
- hypothetical reference circuit
- idle lighting limiting circuit
- inclined adjustment circuit
- incoming circuit
- independent circuit
- inductive circuit
- input circuit
- input-by-output matrix circuit
- inquiry circuit
- integrated circuit
- integrating circuit
- interchange circuit
- interface-integrated circuit
- interferenced circuit
- interferencing circuit
- international leased circuit
- interstage coupling circuit
- invertor circuit
- ISDN echo cancellation circuit
- isochronic circuit
- Jiakoletto circuit
- junction circuit
- Karp circuit
- keep-alive circuit
- key section power circuit
- killer circuit
- ladder circuit
- lamp circuit
- large-scale integration circuit
- latched circuit
- LCR circuit
- lead changeover circuit
- LF-correction circuit
- line circuit
- linear circuit
- link circuit
- live circuit
- local circuit
- lock-in circuit
- locking circuit
- lock-out circuit
- long circuit
- long-distance circuit
- longitudinal circuit
- loop circuit
- lossless resonant circuit
- L-shaped circuit
- magnetic convergence circuit
- main supply circuit
- make circuit
- Marx circuit
- match circuit
- matching circuit
- matrix circuit
- message circuit
- microelectronic circuit
- microphone supply circuit
- multidrop circuit
- multijunctor circuit
- multiloop circuit
- multipoint circuit
- muting circuit
- neodymium magnetic circuit
- neutral circuit
- neutralization circuit
- neutralizing circuit
- noise-rejecting circuit
- noise-suicide circuit
- nonlinear circuit
- NOT circuit
- on-call circuit
- open circuit
- optoelectronic integrated circuit
- OR circuit
- order wire circuits
- OR-ELSE circuit
- oscillating circuit
- oscillation circuit
- output circuit
- output voltage tracking circuit
- packaged circuit
- paging circuit
- parallel circuit
- partially accessible circuit
- peaking circuit
- periodic closed circuit
- phantom circuit
- phase comparating circuit
- phase compensating circuit
- phase-shift circuit
- phase-substitution circuit
- physical circuit
- pilot circuit
- pilot-make-busy circuit
- planar circuit
- point-to-point circuit
- polling circuit
- polyphase circuit
- power circuit
- power-supply circuit
- precision phasing circuit
- primary circuit
- printed circuit
- private leased circuit
- protection circuit
- pulse-phase control circuit
- push-to-talk circuit
- push-to-type circuit
- quenching circuit
- quiet-tuning circuit
- radial supply circuit
- radio circuit
- RC circuit
- reactance control circuit
- reading circuit
- rectification circuit
- reference circuit
- rejecting circuit
- relay cutout circuit
- remote control circuit
- remote-ring circuit
- repeat circuit
- reset circuit
- resonance circuit
- resonant circuit
- reverse circuit
- reverse diode circuit
- ring circuit
- ringing circuit
- sample-and-hold circuit
- scaling circuit
- Scott circuit
- secondary circuit
- section substitution circuit
- selecting circuit
- selective circuit
- self-locked circuit
- series circuit
- series-oscillating circuit
- series-parallel circuit
- series-peaking circuit
- series-tuned circuit
- shaping circuit
- shaved single frequency circuit
- short circuit
- shunt circuit
- shunting circuit
- shunt-peaking circuit
- side circuit
- signal circuit
- signal processing circuit
- signal recovery circuit
- single-current circuit
- single-ended push-pull circuit
- single-frequency resonance circuit
- single-phase bridge circuit
- single-phase circuit
- snap-acting circuit
- solving circuit
- sound-program circuit
- spark-safe circuit
- speech circuit
- speed regulating circuit
- squaring circuit
- stabilizer circuit
- stable circuit
- stage circuit
- stage control circuit
- standard cable circuit
- standard circuit
- standby circuit
- stenode circuit
- storage large-scale integration circuit
- storage locking circuit
- straightforward circuit
- strap magnetic circuit
- strip-line circuit
- super large scale integration circuit
- superimposed circuit
- superposed circuit
- supply circuit
- sweep circuit
- switched circuit
- switching circuit
- symistor control circuit
- synchronous circuit
- tail circuit
- talk-back circuit
- tandem data circuit
- tank circuit
- tapped magnetic circuit
- tapped stage circuit
- telecommunication circuit
- telecommunication-protection circuit
- telegraph circuit
- telegraph grade circuit
- telegraph signal generating circuit
- telephone circuit
- telephone signal generating circuit
- telesignaling receiving circuit
- telesignaling sending circuit
- television circuit
- terminal circuit
- test circuit
- testing circuit
- third circuit
- three-loop circuit
- three-phase input circuit
- three-wire circuit
- through circuit
- thyristor control circuit
- time protection circuit
- time-delay circuit
- time-interval protection circuit
- time-setting circuit
- timing circuit
- toll circuit
- touch sensing circuit
- touch tone dial circuit
- transformer substitution circuit
- transformer-coupled circuit
- transistor clipping circuit
- transistor collector circuit
- transistor control circuit
- transistor protection circuit
- tributary circuit
- triode clamp circuit
- trunk circuit
- T-shaped circuit
- tuned circuit
- twelve-pulse circuit
- two-frequency resonance circuit
- two-loop circuit
- two-wire-ground circuit
- uniform circuit
- unstable circuit
- untapped circuit
- untapped magnetic circuit
- U-shaped circuit
- variometer controlling circuit
- video circuit
- virtual circuit
- voice circuit
- voltage multiplying circuit
- voltage sensor circuit
- watching output circuit
- wideband circuit
- wire circuit
- wired circuitEnglish-Russian dictionary of telecommunications and their abbreviations > circuit
-
14 safety
надёжность; безопасность; предохранительное устройство; II безопасный; надёжный- safety actuation system - safety aid - safety alarm - safety air bag - safety area - safety arrangements - safety assurance - safety audit- road- safety block - safety car - safety chamber - safety chassis - safety check - safety code regulations - safety commander - safety committee - safety communication - safety conditions - safety control - safety cutoff - safety cushion - safety cutoff switch - safety cutout - safety cutout device - safety direction - safety disk - safety distance - safety drive torque device - safety education - safety element - safety enclosure - safety factor of insulation - safety feature - safety feed clutch - safety fence - safety-first engineering - safety first sign - safety flange - safety fuse - safety gap - safety goggles - safety guards - safety guidelines - safety guy - safety hat - safety hazard - safety helmet - safety hitch - safety index - safety inner tube - safety isle - safety joint - safety joint box - safety joint pin - safety key - safety lamp - safety lane - safety latch - safety level - safety light barrier - safety light curtain - safety limit - safety limit area access - safety limit switch - safety line - safety lock pin - safety locking bolt - safety margin - safety marking - safety mask - safety mat - safety measures - safety outlet - safety panel - safety precautions - safety pressure switch - safety rail - safety railing - safety ratio - safety regulation - safety regulator valve - safety relay - safety release - safety relief valve - safety risk - safety rod - safety rope - safety screen - safety screw - safety service - safety shutdown - safety side rail - safety sign - safety signal - safety slip clutch - safety specifications - safety spectacles - safety spring - safety stair - safety stop - safety stop dog - safety strap - safety strip - safety switch - safety system - safety system amplifier - safety system support features - safety tap chuck - safety thermal-relief valve - safety tips - safety tool - safety traffic - safety tread - safety trip cable - safety tyre - safety valve - safety valve nipple - safety valve of a hydraulic system - safety vent - safety washer - safety weight - safety winch - safety-wire - safety wiring - safety working area - safety working conditions - safety zone - active car safety - complete safety - electrical safety - electrical controlled fall safety - passive car safety - pedestrian safety - road safety -
15 duplex
1. n спец. дуплексduplex molding — формовка "дуплекс"
2. n биол. двойная спираль3. a двойной, спаренныйduplex apartment — квартира, расположенная в двух этажах
duplex house — двухквартирный дом, дом на две семьи
duplex memory — двойная память; двойное запоминающее устройство
4. a спец. дуплексный, двустороннийСинонимический ряд:twofold (adj.) bifold; binary; double; double-barreled; dual; dualistic; duple; duplicate; twofold -
16 лампа занятости пучка каналов
синхронная шина; синхронный канал — synchronous bus
асинхронная шина; асинхронный канал — asynchronous bus
коммуникационная шина; канал связи — communication bus
Русско-английский словарь по информационным технологиям > лампа занятости пучка каналов
-
17 LED
светодиод
Полупроводниковый прибор, преобразующий электрическую энергию в энергию оптического излучения на основе явления инжекционной электролюминесценции в полупроводниковом кристалле с электронно-дырочным переходом, полупроводниковым гетеропереходом, либо контактом металл-полупроводник.
[ ГОСТ 24453-80]
светоизлучающий диод
(светодиод)
Устройство, включающее в себя p-n переход, испускающее световое излучение при прохождении через него электрического тока
(МЭС 845-04-40).
[ ГОСТ Р МЭК 60073-2000]
светоизлучающий диод
СИД
Полупроводниковый диод, излучающий энергию в видимой области спектра в результате рекомбинации электронов и дырок.
[ ГОСТ 15133-77]Тематики
- измерение лазерного излучения
- полупроводниковые приборы
- электротехника, основные понятия
Синонимы
EN
DE
светодиодный индикатор
-
[Интент]
Установленные на плате четыре светодиодных индикатора
Тематики
- электротехника, основные понятия
EN
LED
Светоизлучающий диод
Источник: ГОСТ Р МЭК 61850-7-4-2011: Сети и системы связи на подстанциях. Часть 7. Базовая структура связи для подстанций и линейного оборудования. Раздел 4. Совместимые классы логических узлов и классы данных оригинал документа
01.05.24 модель расширенного канала [ extended channel model]: Система кодирования и передачи как байтов с данными сообщения, так и управляющей информации о сообщении, в пределах которой декодер работает в режиме расширенного канала.
Примечание - Управляющая информация передается с использованием управляющих последовательностей интерпретации в расширенном канале (ECI).
<2>4 Сокращения1)
1)Следует учитывать, что в соответствии с оригиналом ИСО/МЭК 19762-1 в данном разделе присутствует сокращение CSMA/CD, которое в тексте стандарта не используется.
Кроме того, сокращения отсортированы в алфавитном порядке.
Al
Идентификатор применения [application identifier]
ANS
Американский национальный стандарт [American National Standard]
ANSI
Американский национальный институт стандартов [American National Standards Institute]
ASC
Аккредитованный комитет по стандартам [Accredited Standards Committee]
вес
Контрольный знак блока [block check character]
BCD
Двоично-десятичный код (ДДК) [binary coded decimal]
BER
Коэффициент ошибок по битам [bit error rate]
CRC
Контроль циклическим избыточным кодом [cyclic redundancy check]
CSMA/CD
Коллективный доступ с контролем несущей и обнаружением конфликтов [carrier sense multiple access with collision detection network]
CSUM
Контрольная сумма [check sum]
Dl
Идентификатор данных [data identifier]
ECI
Интерпретация в расширенном канале [extended channel interpretation]
EDI
Электронный обмен данными (ЭОД) [electronic data interchange]
EEPROM
Электрически стираемое программируемое постоянное запоминающее устройство [electrically erasable programmable read only memory]
HEX
Шестнадцатеричная система счисления [hexadecimal]
INCITS
Международный комитет по стандартам информационных технологий [International Committee for Information Technology Standards]
LAN
Локальная вычислительная сеть [local area network]
Laser
Усиление света с помощью вынужденного излучения [light amplification by the stimulated emission of radiation]
LED
Светоизлучающий диод [light emitting diode]
LLC
Управление логической связью [logical link control]
LSB
Младший значащий бит [least significant bit]
МНЮ
Аккредитованный комитет по отраслевым стандартам в сфере обработки грузов [Accredited Standards Committee for the Material Handling Industry]
MSB
Старший значащий бит [most significant bit]
MTBF
Средняя наработка на отказ [mean time between failures]
MTTR
Среднее время ремонта [mean time to repair]
NRZ
Без возвращения к нулю [non-return to zero code]
NRZ Space
Кодирование без возвращения к нулю с перепадом на нулях [non-return to zero-space]
NRZ-1
Кодирование без возвращения к нулю с перепадом на единицах [non-return to zero invert on ones]
NRZ-M
Запись без возвращения к нулю (метка) [non-return to zero (mark) recording]
RTI
Возвратное транспортное упаковочное средство [returnable transport item]
RZ
Кодирование с возвратом к нулю [return to zero]
VLD
Светоизлучающий лазерный диод [visible laser diode]
<2>Библиография
[1]
ИСО/МЭК Руководство 2
Стандартизация и связанная с ней деятельность. Общий словарь
(ISO/IECGuide2)
(Standardization and related activities - General vocabulary)
[2]
ИСО/МЭК 2382-1
Информационные технологии. Словарь - Часть 1. Основные термины
(ISO/IEC 2382-1)
(Information technology - Vocabulary - Part 1: Fundamental terms)
[3]
ИСО/МЭК 2382-4
Информационные технологии. Словарь - Часть 4. Организация данных
(ISO/IEC 2382-4)
(Information technology - Vocabulary - Part 4: Organization of data)
[4]
ИСО/МЭК 2382-9
Информационные технологии. Словарь. Часть 9. Передача данных
(ISO/IEC 2382-9)
(Information technology - Vocabulary - Part 9: Data communication)
[5]
ИСО/МЭК 2382-16
Информационные технологии. Словарь. Часть 16. Теория информации
(ISO/IEC 2382-16)
(Information technology - Vocabulary - Part 16: Information theory)
[6]
ИСО/МЭК 19762-2
Информационные технологии. Технологии автоматической идентификации и сбора данных (АИСД). Гармонизированный словарь. Часть 2. Оптические носители данных (ОНД)
(ISO/IEC 19762-2)
(Information technology - Automatic identification and data capture (AIDC) techniques - Harmonized vocabulary - Part 2: Optically readable media (ORM))
[7]
ИСО/МЭК 19762-3
Информационные технологии. Технологии автоматической идентификации и сбора данных (АИСД). Гармонизированный словарь. Часть 3. Радиочастотная идентификация (РЧИ)
(ISO/IEC 19762-3)
(Information technology - Automatic identification and data capture (AIDC) techniques - Harmonized vocabulary - Part 3: Radio frequency identification (RFID)
[8]
ИСО/МЭК 19762-4
Информационные технологии. Технологии автоматической идентификации и сбора данных (АИСД). Гармонизированный словарь. Часть 4. Основные термины в области радиосвязи
(ISO/IEC 19762-4)
(Information technology-Automatic identification and data capture (AIDC) techniques - Harmonized vocabulary - Part 4: General terms relating to radio communications)
[9]
ИСО/МЭК 19762-5
Информационные технологии. Технологии автоматической идентификации и сбора данных (АИСД). Гармонизированный словарь. Часть 5. Системы определения места нахождения
(ISO/IEC 19762-5)
(Information technology - Automatic identification and data capture (AIDC) techniques - Harmonized vocabulary - Part 5: Locating systems)
[10]
МЭК 60050-191
Международный Электротехнический Словарь. Глава 191. Надежность и качество услуг
(IEC 60050-191)
(International Electrotechnical Vocabulary - Chapter 191: Dependability and quality of Service)
[11]
МЭК 60050-702
Международный Электротехнический Словарь. Глава 702. Колебания, сигналы и соответствующие устройства
(IEC 60050-702)
(International Electrotechnical Vocabulary - Chapter 702: Oscillations, signals and related devices)
[12]
МЭК 60050-704
Международный Электротехнический словарь. Глава 704. Техника передачи
(IEC 60050-704)
(International Electrotechnical Vocabulary. Chapter 704: Transmission)
[13]
МЭК 60050-845
Международный электротехнический словарь. Глава 845. Освещение
(IEC 60050-845)
(International Electrotechnical Vocabulary - Chapter 845: Lighting)
<2>
Источник: ГОСТ Р ИСО/МЭК 19762-1-2011: Информационные технологии. Технологии автоматической идентификации и сбора данных (АИСД). Гармонизированный словарь. Часть 1. Общие термины в области АИСД оригинал документа
Англо-русский словарь нормативно-технической терминологии > LED
См. также в других словарях:
Lamp — may refer to one of the following :* An oil lamp, the original use of the term * Lamp (fixture), a light fixture (luminaire) such as a table lamp or reading lamp * Signal lamp, a device used for communication between ships *Fuel burning… … Wikipedia
Lamp — est un acronyme désignant un ensemble de logiciels libres permettant de construire des serveurs de sites Web. L acronyme original se réfère aux logiciels suivants : « Linux », le système d exploitation ; « Apache »,… … Wikipédia en Français
LAMP — est un acronyme désignant un ensemble de logiciels libres permettant de construire des serveurs de sites web. L acronyme original se réfère aux logiciels suivants : « Linux », le système d exploitation ( GNU/Linux ) ;… … Wikipédia en Français
Signal lamp — training during World War II. A signal lamp (sometimes called an Aldis lamp, named after Arthur C. W. Aldis who invented a widely used design) is a visual signaling device for optical communication (typically using Morse code). Modern signal… … Wikipedia
Optical communication — is any form of telecommunication that uses light as the transmission medium. An optical communication system consists of a transmitter, which encodes a message into an optical signal, a channel, which carries the signal to its destination, and a… … Wikipedia
Halogen lamp — A halogen lamp is an incandescent lamp in which a tungsten filament is sealed into a compact transparent envelope filled with an inert gas, plus a small amount of halogen such as iodine or bromine. The halogen cycle increases the lifetime of the… … Wikipedia
Spirit lamp — Spirit Spir it, n. [OF. espirit, esperit, F. esprit, L. spiritus, from spirare to breathe, to blow. Cf. {Conspire}, {Expire}, {Esprit}, {Sprite}.] 1. Air set in motion by breathing; breath; hence, sometimes, life itself. [Obs.] All of spirit… … The Collaborative International Dictionary of English
Infrared lamp — Infrared lamps are electrical devices which emit infrared radiation. Infrared lamps have many uses, but are most commonly used in communication and heating.Infrared HeatingInfrared heating uses infrared lamps to transmit infrared radiation to the … Wikipedia
DAVY-LAMP — a lamp encased in gauze wire which, while it admits oxygen to feed the flame, prevents communication between the flame and any combustible or explosive gas outside … The Nuttall Encyclopaedia
technology, history of — Introduction the development over time of systematic techniques for making and doing things. The term technology, a combination of the Greek technē, “art, craft,” with logos, “word, speech,” meant in Greece a discourse on the arts, both… … Universalium
X10 (industry standard) — X10 is an international and open industry standard for communication among electronic devices used for home automation, also known as domotics . It primarily uses power line wiring for signaling and control, where the signals involve brief radio… … Wikipedia