-
101 PLED
Вычислительная техника: Polymer Light Emitting Display (LED) -
102 SMOLED
Вычислительная техника: Small Molecules Organic Light Emitting Display (OLED, LED) -
103 force
1. n1) сила, мощь2) действенность; действие, воздействие (соглашения, закона и т.п.)3) применение силы, насилие, принуждение4) pl войска, вооруженные силы; вооружения5) группа6) сила (производительная, политическая и т.п.); фактор7) численность8) (the Force) полиция (особ. Великобритании)•to be in force — иметь (юридическую) силу; оставаться в силе
to beef up one's military forces — укреплять свои вооруженные силы
to build up military forces — наращивать военную мощь; сосредоточивать войска
to clear rebel forces from somewhere — очищать какой-л. район от войск мятежников
to continue in force — оставаться в силе; действовать (о законе и т.п.)
to disband / to dismantle forces — демобилизовывать / распускать войска
to encourage all progressive forces (to) — поощрять / поддерживать все прогрессивные силы
to enter a city in force — брать город приступом; вводить в город крупные воинские формирования
to have no force — быть недействительным; не иметь силы
to improve one's defense forces — совершенствовать свои силы самообороны
to join forces — объединяться; объединять силы
to join forces with smb — объединять силы с кем-л.
to maintain the balance of forces — поддерживать равновесие / соотношение сил
to modernize one's forces — модернизировать свои вооруженные силы
to put in force — осуществлять, проводить в жизнь; вводить в действие
to put the armed forces on full alert — приводить вооруженные силы в состояние полной боевой готовности
to reduce conventional forces in / throughout Europe — сокращать количество войск и обычных вооружений в Европе
to remain in force — оставаться в силе, действовать (о законе и т.п.)
to reshape one's armed forces — реорганизовывать свои вооруженные силы
to resort to force — прибегать к силе / насилию
to rule a country by sheer force — управлять страной, опираясь исключительно на силу
to seek negotiated reductions in conventional forces — добиваться сокращения обычных вооружений путем переговоров
to suppress smth by brute force — подавлять что-л. грубой силой
to take recourse to force — прибегать к силе / насилию
to use force against smb — использовать силу против кого-л.
- accelerated development of productive forcesto withdraw forces from... — выводить войска из...
- active forces
- activities of forces
- actual force
- advance force
- aggressive forces
- aggressor forces
- air forces
- alignment of forces
- alliance of the forces
- allied forces
- allocation of forces
- anti-aircraft forces
- anti-colonialist forces
- anti-fascist forces
- anti-government forces
- anti-kidnap force
- anti-monopoly forces
- anti-national forces
- anti-popular forces
- anti-war forces
- armed forces of a country
- armed forces
- assault force
- Atlantic Nuclear Force - binding force
- bomber forces
- border forces
- border-security forces
- brutal force
- build-up forces
- build-up of forces
- by force
- by sheer force
- carrier striking force
- Central American task force
- character of the armed forces
- coalition forces
- combatant forces
- combined forces
- Commonwealth Military Force
- competing forces
- competition forces
- compulsory force
- conditions of entry into force
- conservative forces
- consistent force
- consolidation of all forces
- contributor to the multinational force
- Conventional Force in Europe
- conventional forces
- correlation of forces
- crack forces
- cross-border force
- crude force
- deep cuts in conventional forces
- defense forces
- democratic forces
- determining force in social development
- deterrent force
- directing force
- display of force
- disquiet in the armed forces
- division of political forces
- dominant force
- economic force
- effective forces
- elemental forces of nature
- enforcement forces - extraction force
- follow-on force
- force is not the answer
- force of a clause
- force of a treaty
- force of an agreement
- force of argument
- force of arms
- force of example
- force of law
- force of occupation
- force of public opinion
- force of weaponry
- force to be reckoned with
- forces in the field
- forces of aggression and war
- forces of flexible response
- forces of internal and external reaction
- forward-based forces
- free play of democratic forces
- full force of the treaty
- general purpose forces
- ground forces
- guiding force
- hired labor force
- IFOR
- in force
- in full force
- independent force
- inequitable relationship of forces
- influential force
- intermediate range forces
- international balance of forces
- international peace-keeping forces
- internationalist forces
- interplay of political forces
- interposing force
- invasion forces
- irregular forces
- joint NATO armed forces
- labor force
- land forces
- landing force
- lawful use of force
- leading force in smth
- leading force
- left-wing forces
- legal force
- liberation forces
- local forces
- logistical forces
- main force
- major force
- mandatory force
- manifestation of force
- material force
- member of a peace-keeping force
- military force
- monetary forces
- motive force
- moving force
- multilateral forces
- mutinous forces
- mutual non-use of military force
- national forces
- national liberation forces
- national political forces
- natural forces
- nature of forces
- naval forces
- noneconomic forces
- non-use of force
- nuclear forces
- nuclear strike force
- obligatory force of international treaties
- observer force
- occupation force
- occupying force
- of legal force
- on entry into force
- operation of market forces
- operational forces
- opposing forces
- organizing force
- pan-Arab force
- paramilitary forces
- patriotic forces
- peace forces
- Peace Implementation Force
- peace-keeping forces
- peace-safeguarding forces
- people's armed forces of liberation
- phased withdrawal of the forces
- police force
- policy of force
- political force
- posture of forces
- potent force
- powerful force
- professionally led force
- progressive forces
- pro-independence forces
- proportions of forces
- punitive forces
- quick-reaction force
- Rapid Deployment Force
- Rapid Reaction Force
- rapid-action force
- RDF
- rebel forces
- recourse to force
- reduction in the armed forces
- regional security forces
- regrouping of forces
- relationship of forces
- reserve force
- reserve of the forces
- resistance forces
- resort to force
- retaliatory forces
- revanchist forces
- revolutionary forces
- rightist forces
- right-wing forces
- rough parity of forces
- ruling forces
- sea forces
- sea-based strategic missile forces
- second-strike force
- security forces
- self-defense forces
- SFOR
- shifts in the alignment of forces - social and political forces
- social forces
- socio-political forces
- special forces
- spontaneous force
- Stabilization Force
- strategic air forces
- strategic forces
- Strategic Rocket Force
- strength of the armed forces
- strike force
- striking force
- suppression by force
- task force
- territorial force
- theater nuclear forces
- third force- TNF- ultra-right forces
- UN buffer force
- UN Emergency Force
- UN observer force
- unification of forces
- unification of the armed force under a single command
- unified forces
- unilateral cuts in smb's forces
- United Nation Protection Force
- United Nations forces
- United Nations peace-keeping forces
- unity of forces
- UNPROFOR
- use of military forces
- use of preemptive force
- vital force
- voluntary military forces
- weakening of forces
- with political forces splintering
- withdrawal of forces
- without resort to force
- work force
- world market forces 2. vзаставлять, принуждать, вынуждать -
104 printer
1) печатающее устройство, вчт принтер; установка для печатания2) установка для получения изображения (на твёрдом носителе) любым способом (напр. с помощью фотолитографии)4) печатник; полиграфист•- band printer
- bar printer
- barrel printer
- Braille printer
- bubble-jet printer
- chain printer
- character printer
- continuous-tone printer
- daisy-wheel printer
- default printer
- department laser printer
- dot-matrix printer
- double-sided printer
- drum printer
- dye sublimation printer
- electrophotographic printer
- electrophotographic nonimpact printer
- electrosensitive printer
- electrostatic printer
- electrothermal printer
- envelope printer
- fully formed printer
- GDI printer
- graphic device interface printer
- graphics printer
- high-speed printer
- impact printer
- ink printer
- ink-jet printer
- ion-deposition printer
- label printer
- laser printer
- LCD printer
- LCS printer
- LED printer
- light-emitting diode printer - liquid-crystal display printer
- liquid-crystal shutter printer
- local printer
- logic-seeking printer
- matrix printer
- matrix line printer
- matrix line-at-a-time printer
- net printer
- nonimpact printer
- one-sided printer
- optical printer
- page printer
- parallel printer
- personal printer
- phase change ink-jet printer
- piezo ink-jet printer
- pin-fed printer
- portable printer
- PostScript printer
- quiet printer
- scanning printer
- scanning-light-source printer
- serial printer
- sheet-fed printer
- smart printer
- solid ink-jet printer
- sprocket-fed printer
- stylus printer
- tape printer
- target printer
- thermal printer
- thermal dye-sublimation printer
- thermal fusion printer
- thermal ink-jet printer
- thermal transfer printer
- thermal wax printer
- thermal wax-transfer printer
- thimble printer
- tractor-fed printer
- wheel printer
- Windows printer -
105 printer
1) печатающее устройство, вчт. принтер; установка для печатания2) установка для получения изображения (на твёрдом носителе) любым способом (напр. с помощью фотолитографии)4) печатник; полиграфист•- band printer
- bar printer
- barrel printer
- Braille printer
- bubble-jet printer
- chain printer
- character printer
- continuous-tone printer
- daisy-wheel printer
- default printer
- department laser printer
- dot-matrix printer
- double-sided printer
- drum printer
- dye sublimation printer
- electrophotographic nonimpact printer
- electrophotographic printer
- electrosensitive printer
- electrostatic printer
- electrothermal printer
- envelope printer
- fully formed printer
- GDI printer
- graphic device interface printer
- graphics printer
- high-speed printer
- impact printer
- ink printer
- ink-jet printer
- ion-deposition printer
- label printer
- laser printer
- LCD printer
- LCS printer
- LED printer
- light-emitting diode printer
- line printer
- line-at-a-time printer
- liquid-crystal display printer
- liquid-crystal shutter printer
- local printer
- logic-seeking printer
- matrix line printer
- matrix line-at-a-time printer
- matrix printer
- net printer
- nonimpact printer
- one-sided printer
- optical printer
- page printer
- parallel printer
- personal printer
- phase change ink-jet printer
- piezo ink-jet printer
- pin-fed printer
- portable printer
- PostScript printer
- quiet printer
- scanning printer
- scanning-light-source printer
- serial printer
- sheet-fed printer
- smart printer
- solid ink-jet printer
- sprocket-fed printer
- stylus printer
- tape printer
- target printer
- thermal dye-sublimation printer
- thermal fusion printer
- thermal ink-jet printer
- thermal printer
- thermal transfer printer
- thermal wax printer
- thermal wax-transfer printer
- thimble printer
- tractor-fed printer
- wheel printer
- Windows printerThe New English-Russian Dictionary of Radio-electronics > printer
-
106 bomb
авиационная бомба, АБ; ручная граната; Бр. артиллерийская мина; диверсионная мина; бомбардировать, сбрасывать бомбы, бомбить; забрасывать ручными гранатами; бомбовый— AA bomb— armor -piercing bomb— AT air bomb— biological agent bomb— bomb up— car bomb— cobalt center bomb— dud bomb— electron-thermite bomb— free-falling bomb— fusion nuclear bomb— gas-filled bomb— HE bomb— jet bomb— magnesium flare bomb— magnium-cadmium body bomb— medium capacity bomb— remote-control led bomb— retarded delivery bomb— the Bomb— toy bomb— X bomb* * *• бомба• бомбить -
107 LCD printer
электростатический принтер, где источником света является матрица жидких кристалловАнгло-русский толковый словарь терминов и сокращений по ВТ, Интернету и программированию. > LCD printer
-
108 scale
1) шкала2) масштаб3) степень ( интеграции)•- calibration scale
- coordinated-time scale
- display scale
- equal-listener response scale
- fast-time scale
- focusing scale
- gray scale
- hue scale
- illuminated scale
- indicating scale
- linear scale
- magnetic scale
- meter scale
- nominal scale
- nonlinear scale
- n-segment LED scale
- phase-setter scale
- photometric scale
- primary scale
- projection scale
- reading scale
- receiver-tuning scale
- reference scale
- secondary scale
- sensitivity scale
- time scale
- uniform scale
- vernier scaleEnglish-Russian dictionary of telecommunications and their abbreviations > scale
-
109 aisle
aisle [aɪl]∎ her father led her up the aisle c'est son père qui l'a menée à l'autel;∎ to walk up or down the aisle (before ceremony) entrer dans l'église; (after ceremony) sortir de l'église;∎ figurative to walk up the aisle se marier►► Marketing aisle end display tête f de gondole;aisle seat (in train, aeroplane) siège m côté couloir -
110 case
Ⅰ.case1 [keɪs]cas ⇒ 1 (a), 1 (b), 1 (f)-(h) affaire ⇒ 1 (c), 1 (d) arguments ⇒ 1 (e) en tout cas ⇒ 2 au cas où ⇒ 3 en cas de ⇒ 41 noun(a) (instance, situation) cas m, exemple m;∎ it's a clear case of mismanagement c'est un exemple manifeste de mauvaise gestion;∎ it was a case of having to decide on the spur of the moment il fallait décider sur-le-champ;∎ we often hear of cases where companies go bankrupt nous entendons souvent parler de cas où des entreprises font faillite;∎ if it's a case of not having enough money si c'est une question d'argent;∎ to put the case clearly exposer clairement le cas ou la situation;∎ in the case of single mothers dans le cas des mères célibataires;∎ in that case dans ou en ce cas;∎ in these cases it's best to wait dans de telles circonstances, il vaut mieux attendre;∎ in this particular case en l'occurrence;∎ in which case auquel cas;∎ in your case en ce qui vous concerne, dans votre cas;∎ in Paul's case dans le cas de Paul;∎ in many/most cases dans beaucoup de/la plupart des cas;∎ in no case en aucun cas;∎ in some cases dans certains cas;∎ in the vast majority of cases dans la plupart des cas;∎ in nine cases out of ten neuf fois sur dix;∎ the current crisis is a case in point la crise actuelle est un exemple typique;∎ it's a case of now or never il s'agit de saisir l'occasion ou de faire vite;(b) (actual state of affairs) cas m;∎ can we assume that this is in fact the case? pouvons-nous considérer que c'est bien le cas?;∎ that is not the case in Great Britain ce ou tel n'est pas le cas en Grande-Bretagne;∎ as is often/usually the case comme c'est souvent/ordinairement le cas;∎ as the case or whatever the case may be selon le cas;∎ if such is indeed the case si tel est ou si c'est vraiment le cas(c) (investigation) affaire f;∎ it was one of Inspector Dupont's most difficult cases ce fut une des affaires les plus difficiles de l'inspecteur Dupont;∎ a murder/fraud case une affaire de meurtre/fraude;∎ the case continues affaire à suivre;∎ the case is closed c'est une affaire classée;∎ familiar to be on sb's case être sur le dos de qn;∎ familiar get off my case! fiche-moi la paix!;∎ a civil rights case une affaire de droits civils;∎ her case comes up next week son procès a lieu la semaine prochaine;∎ to try a case juger une affaire;∎ he won his case for slander (barrister) il a gagné le procès en diffamation; (plaintiff) il a gagné son procès ou il a eu gain de cause dans son procès en diffamation(e) (argument) arguments mpl;∎ there is no case against him aucune preuve n'a pu être retenue contre lui;∎ the case against/for the defendant les arguments contre/en faveur de l'accusé;∎ there is a good case against/for establishing quotas il y a beaucoup à dire contre/en faveur de l'établissement de quotas;∎ the union has a good case le syndicat a de bons arguments ou de bonnes raisons;∎ state your case présentez vos arguments;∎ there is a case to be answered here il ne faut pas négliger cette question;∎ to make (out) a case for sth présenter des arguments pour ou en faveur de qch∎ there have been several cases of meningitis recently il y a eu plusieurs cas de méningite récemment;∎ the hospital could only take the most serious cases l'hôpital ne pouvait s'occuper que des cas les plus graves;∎ all burns cases are treated here tous les grands brûlés sont traités ici∎ he's a real case! c'est un cas ou un phénomène!;∎ he's a sad case c'est vraiment un pauvre type∎ in any case I shan't be coming je ne viendrai pas en tout cas ou de toute façon;∎ in any case, that's not the point bref ou en tout cas, là n'est pas la question(b) (at least) du moins, en tout cas;∎ that's what I was told, or in any case was led to believe c'est ce qu'on m'a dit ou en tout cas ou ou du moins, ce qu'on m'a fait croire1 adverbau cas où;∎ I'll take my umbrella (just) in case je vais prendre mon parapluie au cas oùau cas où;∎ in case you think I'm bluffing au cas où tu croirais que je bluffe;∎ I kept a place for you, in case you were late je t'ai gardé une place, au cas où tu serais en retarden cas de;∎ in case of emergency/fire en cas d'urgence/d'incendie►► case conference étude f de cas (par un groupe de spécialistes);case grammar grammaire f des cas;case history antécédents mpl;case law jurisprudence f, droit m jurisprudentiel;case load (nombre m de) dossiers mpl à traiter;case notes dossier m;case study étude f de casⅡ.case21 noun(a) (container) caisse f, boîte f; (for bottles) caisse f; (for fruit, vegetables) cageot m; (chest) coffre m; (for jewellery) coffret m; (for necklace, watch) écrin m; (for camera, guitar, spectacles, cigarettes) étui m; (for pencils, geometry etc instruments) trousse f(b) (for display) vitrine f(d) Typography casse f(a) (put in box) mettre en boîte ou caisse∎ cased in ice couvert de glace∎ the robbers had thoroughly cased the joint les voleurs avaient bien examiné les lieux (avant de faire leur coup)►► case knife couteau m à gaine -
111 Baudot, Jean-Maurice-Emile
[br]b. 11 September 1845 Magneux, Franced. 28 March 1903 Sceaux, France[br]French engineer who developed the multiplexed telegraph and devised a 5-bit code for data communication and control.[br]Baudot had no formal education beyond his local primary school and began his working life as a farmer, as was his father. However, in September 1869 he joined the French telegraph service and was soon sent on a course on the recently developed Hughes printing telegraph. After service in the Franco-Prussian war as a lieutenant with the military telegraph, he returned to his civilian duties in Paris in 1872. He was there encouraged to develop (in his own time!) a multiple Hughes system for time-multiplexing of several telegraph messages. By using synchronized clockwork-driven rotating switches at the transmitter and receiver he was able to transmit five messages simultaneously; the system was officially adopted by the French Post \& Telegraph Administration five years later. In 1874 he patented the idea of a 5-bit (i.e. 32-permutation) code, with equal on and off intervals, for telegraph transmission of the Roman alphabet and punctuation signs and for control of the typewriter-like teleprinter used to display the message. This code, known as the Baudot code, was found to be more economical than the existing Morse code and was widely adopted for national and international telegraphy in the twentieth century. In the 1970s it was superseded by 7—and 8-bit codes.Further development of his ideas on multiplexing led in 1894 to methods suitable for high-speed telegraphy. To commemorate his contribution to efficient telegraphy, the unit of signalling speed (i.e. the number of elements transmitted per second) is known as the baud.[br]Bibliography17 June 1874, "Système de télégraphie rapide" (Baudot's first patent).Further Reading1965, From Semaphore to Satellite, Geneva: International Telecommunications Union.P.Lajarrige, 1982, "Chroniques téléphoniques et télégraphiques", Collection historique des télécommunications.KFBiographical history of technology > Baudot, Jean-Maurice-Emile
-
112 Duddell, William du Bois
SUBJECT AREA: Electricity[br]b. 1872 Kensington, London, Englandd. 4 November 1917 London, England[br]English engineer, inventor of the first practical oscillograph.[br]After an education at the College of Stanislas, Cannes, Duddell served an apprenticeship with Davy Paxman of Colchester. Studying under Ayrton and Mather at the Central Technical College in South Kensington, he found the facilities for experimental work of exceptional value to him and remained there for some years. In 1897 Duddell produced a galvanometer which was sufficiently responsive to display an alternating-current wave-form. This instrument, with a coil carrying a mirror in the air gap of a powerful electromagnet, had a small periodic time. An oscillating mirror driven by a synchronous motor spread out the deflection on a time-scale. This development became the first commercial oscillograph and brought Duddell into prominence as a first-rate designer of special instruments. The Duddell oscillograph remained in use until after the Second World War, examples being used for recording short-circuit tests on high-power switchgear and other rapidly varying or transient phenomena. His next important work was to collaborate with Professor Marchant at Liverpool University to investigate the characteristics of the electric arc. This led to the suggestion that, coupled to a resonant circuit, the electric arc could form a generator of high-frequency currents. This arrangement was later developed by Poulson for wireless telegraphy. Duddell spent the last years of his life on government research as a member of the Admiralty Board of Inventions and Research and also of the Inventions Board of the Ministry of Munitions.[br]Principal Honours and DistinctionsCBE 1916. FRS 1907. Royal Society Hughes Medal 1912. President, Institution of Electrical Engineers 1912 and 1913.Bibliography1897, Electrician, 39:636–8 (describes his oscillograph). 5 March 1898, British patent no. 5,449 (the oscillograph).1899, with E.W.Marchant, "Experiments on alternate current arcs by aid of oscillograph", Journal of the Institution of Electrical Engineers 28: 1–107.Further ReadingV.J.Phillips, 1987, Waveforms, Bristol (a comprehensive account).1945, "50 years of scientific instrument manufacture", Engineering, 159:461.GWBiographical history of technology > Duddell, William du Bois
-
113 Goldmark, Peter Carl
[br]b. 2 December 1906 Budapest, Hungaryd. 7 December 1977 Westchester Co., New York, USA[br]Austro-Hungarian engineer who developed the first commercial colour television system and the long-playing record.[br]After education in Hungary and a period as an assistant at the Technische Hochschule, Berlin, Goldmark moved to England, where he joined Pye of Cambridge and worked on an experimental thirty-line television system using a cathode ray tube (CRT) for the display. In 1936 he moved to the USA to work at Columbia Broadcasting Laboratories. There, with monochrome television based on the CRT virtually a practical proposition, he devoted his efforts to finding a way of producing colour TV images: in 1940 he gave his first demonstration of a working system. There then followed a series of experimental field-sequential colour TV systems based on segmented red, green and blue colour wheels and drums, where the problem was to find an acceptable compromise between bandwidth, resolution, colour flicker and colour-image breakup. Eventually he arrived at a system using a colour wheel in combination with a CRT containing a panchromatic phosphor screen, with a scanned raster of 405 lines and a primary colour rate of 144 fields per second. Despite the fact that the receivers were bulky, gave relatively poor, dim pictures and used standards totally incompatible with the existing 525-line, sixty fields per second interlaced monochrome (black and white) system, in 1950 the Federal Communications Commission (FCC), anxious to encourage postwar revival of the industry, authorized the system for public broadcasting. Within eighteen months, however, bowing to pressure from the remainder of the industry, which had formed its own National Television Systems Committee (NTSC) to develop a much more satisfactory, fully compatible system based on the RCA three-gun shadowmask CRT, the FCC withdrew its approval.While all this was going on, Goldmark had also been working on ideas for overcoming the poor reproduction, noise quality, short playing-time (about four minutes) and limited robustness and life of the long-established 78 rpm 12 in. (30 cm) diameter shellac gramophone record. The recent availability of a new, more robust, plastic material, vinyl, which had a lower surface noise, enabled him in 1948 to reduce the groove width some three times to 0.003 in. (0.0762 mm), use a more lightly loaded synthetic sapphire stylus and crystal transducer with improved performance, and reduce the turntable speed to 33 1/3 rpm, to give thirty minutes of high-quality music per side. This successful development soon led to the availability of stereophonic recordings, based on the ideas of Alan Blumlein at EMI in the 1930s.In 1950 Goldmark became a vice-president of CBS, but he still found time to develop a scan conversion system for relaying television pictures to Earth from the Lunar Orbiter spacecraft. He also almost brought to the market a domestic electronic video recorder (EVR) system based on the thermal distortion of plastic film by separate luminance and coded colour signals, but this was overtaken by the video cassette recorder (VCR) system, which uses magnetic tape.[br]Principal Honours and DistinctionsInstitute of Electrical and Electronics Engineers Morris N.Liebmann Award 1945. Institute of Electrical and Electronics Engineers Vladimir K. Zworykin Award 1961.Bibliography1951, with J.W.Christensen and J.J.Reeves, "Colour television. USA Standard", Proceedings of the Institute of Radio Engineers 39: 1,288 (describes the development and standards for the short-lived field-sequential colour TV standard).1949, with R.Snepvangers and W.S.Bachman, "The Columbia long-playing microgroove recording system", Proceedings of the Institute of Radio Engineers 37:923 (outlines the invention of the long-playing record).Further ReadingE.W.Herold, 1976, "A history of colour television displays", Proceedings of the Institute of Electrical and Electronics Engineers 64:1,331.See also: Baird, John LogieKF -
114 Perret, Auguste
[br]b. 12 February 1874 Ixelles, near Brussels, Belgiumd. 26 February 1954 Le Havre (?), France[br]French architect who pioneered and established building design in reinforced concrete in a style suited to the modern movement.[br]Auguste Perret belonged to the family contracting firm of A. \& G.Perret, which early specialized in the use of reinforced concrete. His eight-storey building at 25 bis Rue Franklin in Paris, built in 1902–3, was the first example of frame construction in this material and established its viability for structural design. Both ground plan and façade are uncompromisingly modern, the simplicity of the latter being relieved by unobtrusive faience decoration. The two upper floors, which are set back, and the open terrace roof garden set a pattern for future schemes. All of Perret's buildings had reinforced-concrete structures and this was clearly delineated on the façade designs. The concept was uncommon in Europe at the time, when eclecticism still largely ruled, but was derived from the late nineteenth-century skyscraper façades built by Louis Sullivan in America. In 1905–6 came Perret's Garage Ponthieu in Paris; a striking example of exposed concrete, it had a central façade window glazed in modern design in rich colours. By the 1920s ferroconcrete was in more common use, but Perret still led the field in France with his imaginative, bold use of the material. His most original structure is the Church of Notre Dame at Le Raincy on the outskirts of Paris (1922–3). The imposing exterior with its tall tower in diminishing stages is finely designed, but the interior has magnificence. It is a wide, light church, the segmented vaulted roof supported on slender columns. The whole structure is in concrete apart from the glass window panels, which extend the full height of the walls all around the church. They provide a symphony of colour culminating in deep blue behind the altar. Because of the slenderness of the columns and the richness of the glass, this church possesses a spiritual atmosphere and unimpeded sight and sound of and from the altar for everyone. It became the prototype for churches all over Europe for decades, from Moser in prewar Switzerland to Spence's postwar Coventry Cathedral.In a long working life Perret designed buildings for a wide range of purposes, adhering to his preference for ferroconcrete and adapting its use according to each building's needs. In the 1940s he was responsible for the railway station at Amiens, the Atomic Centre at Saclay and, one of his last important works, the redevelopment after wartime damage of the town centre of Le Havre. For the latter, he laid out large open squares enclosed by prefabricated units, which display a certain monotony, despite the imposing town hall and Church of St Joseph in the Place de L'Hôtel de Ville.[br]Principal Honours and DistinctionsPresident des Réunions Internationales des Architectes. American Society of the French Legion of Honour Gold Medal 1950. Elected after the Second World War to the Institut de France. First President of the International Union of Architects on its creation in 1948. RIBA Royal Gold Medal 1948.Further ReadingP.Blater, 1939, "Work of the architect A.Perret", Architektura SSSR (Moscow) 7:57 (illustrated article).1848 "Auguste Perret: a pioneer in reinforced concrete", Civil Engineers' Review, pp.296–300.Peter Collins, 1959, Concrete: The Vision of a New Architecture: A Study of Auguste Perret and his Precursors, Faber \& Faber.Marcel Zahar, 1959, D'Une Doctrine d'Architecture: Auguste Perret, Paris: Vincent Fréal.DY -
115 Porter, Charles Talbot
SUBJECT AREA: Steam and internal combustion engines[br]b. 18 January 1826 Auburn, New York, USAd. 1910 USA[br]American inventor of a stone dressing machine, an improved centrifugal governor and a high-speed steam engine.[br]Porter graduated from Hamilton College, New York, in 1845, read law in his father's office, and in the autumn of 1847 was admitted to the Bar. He practised for six or seven years in Rochester, New York, and then in New York City. He was drawn into engineering when aged about 30, first through a client who claimed to have invented a revolutionary type of engine and offered Porter the rights to it as payment of a debt. Having lent more money, Porter saw neither the man nor the engine again. Porter followed this with a similar experience over a patent for a stone dressing machine, except this time the machine was built. It proved to be a failure, but Porter set about redesigning it and found that it was vastly improved when it ran faster. His improved machine went into production. It was while trying to get the steam engine that drove the stone dressing machine to run more smoothly that he made a discovery that formed the basis for his subsequent work.Porter took the ordinary Watt centrifugal governor and increased the speed by a factor of about ten; although he had to reduce the size of the weights, he gained a motion that was powerful. To make the device sufficiently responsive at the right speed, he balanced the centrifugal forces by a counterweight. This prevented the weights flying outwards until the optimum speed was reached, so that the steam valves remained fully open until that point and then the weights reacted more quickly to variations in speed. He took out a patent in 1858, and its importance was quickly recognized. At first he manufactured and sold the governors himself in a specially equipped factory, because this was the only way he felt he could get sufficient accuracy to ensure a perfect action. For marine use, the counterweight was replaced by a spring.Higher speed had brought the advantage of smoother running and so he thought that the same principles could be applied to the steam engine itself, but it was to take extensive design modifications over several years before his vision was realized. In the winter of 1860–1, J.F. Allen met Porter and sketched out his idea of a new type of steam inlet valve. Porter saw the potential of this for his high-speed engine and Allen took out patents for it in 1862. The valves were driven by a new valve gear designed by Pius Fink. Porter decided to display his engine at the International Exhibition in London in 1862, but it had to be assembled on site because the parts were finished in America only just in time to be shipped to meet the deadline. Running at 150 rpm, the engine caused a sensation, but as it was non-condensing there were few orders. Porter added condensing apparatus and, after the failure of Ormerod Grierson \& Co., entered into an agreement with Joseph Whitworth to build the engines. Four were exhibited at the 1867 Paris Exposition Universelle, but Whitworth and Porter fell out and in 1868 Porter returned to America.Porter established another factory to build his engine in America, but he ran into all sorts of difficulties, both mechanical and financial. Some engines were built, and serious production was started c. 1874, but again there were further problems and Porter had to leave his firm. High-speed engines based on his designs continued to be made until after 1907 by the Southwark Foundry and Machine Company, Philadelphia, so Porter's ideas were proved viable and led to many other high-speed designs.[br]Bibliography1908, Engineering Reminiscences, New York: J. Wiley \& Sons; reprinted 1985, Bradley, Ill.: Lindsay (autobiography; the main source of information about his life).Further ReadingR.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press (examines his governor and steam engine).O.Mayr, 1974, "Yankee practice and engineering theory; Charles T.Porter and the dynamics of the high-speed engine", Technology and Culture 16 (4) (examines his governor and steam engine).RLH -
116 electronic microprocessor-based release
микропроцессорный расцепитель
электронный расцепитель
-
[Интент]Микропроцессорный (электронный) расцепитель позволяет очень точно настроить параметры защиты и обеспечить селективность относительно расположенных ниже автоматических выключателей.
Рис. LS Industrial Systems
Стационарный автоматический выключатель:
1- Микропроцессорный расцепительМикропроцессорный расцепитель
Рис. Schneider Electric1 Long-time threshold and tripping delay
1. Уставка тока защиты с длительной задержкой срабатывания и задержка срабатывания.
2 Overload alarm (LED) at 1,125 Ir.
2. Светодиодный индикатор перегрузки превышающей 1,125 Ir.
3 Short-time pick-up and tripping delay.
3. Уставка тока защиты с кратковременной задержкой срабатывания и задержка срабатывания.
4 Instantaneous pick-up.
4. Уставка тока защиты мгновенного срабатывания
5 Earth-fault pick-up and tripping delay.
5. Уставка тока защиты от замыкания на землю и задержка срабатывания
6 Earth-fault test button.
6. Кнопка проверки срабатывания при замыкании на землю
7 Long-time rating plug screw.
7. Калибратор защиты с длительной задержкой срабатывания
8 Test connector.
8. Разъем для тестирования
9 Lamp test, reset and battery test.
9. Кнопка сброса состояния срабатывания и проверки индикаторов и гальванического элемента
10 Indication of tripping cause.
10. Индикация причины срабатывания
11 Digital display.
11. Символьный экран
12 Three-phase bargraph and ammeter.
12. Светодиодные шкалы индикации токов фаз А, В и С
13 Navigation button “quick View”.
13. Кнопка быстрого просмотра
14 Navigation button to view menu contents.
14. Кнопка перемещения по меню
15 Navigation button to change menu
[Schneider Electric]15. Кнопка перехода от одного меню к другому
[Перевод Интент]Тематики
- выключатель автоматический
- расцепитель, тепловое реле
Классификация
>>>Синонимы
EN
Примечание(1) - термин Schneider ElectricАнгло-русский словарь нормативно-технической терминологии > electronic microprocessor-based release
-
117 trip system (1)
микропроцессорный расцепитель
электронный расцепитель
-
[Интент]Микропроцессорный (электронный) расцепитель позволяет очень точно настроить параметры защиты и обеспечить селективность относительно расположенных ниже автоматических выключателей.
Рис. LS Industrial Systems
Стационарный автоматический выключатель:
1- Микропроцессорный расцепительМикропроцессорный расцепитель
Рис. Schneider Electric1 Long-time threshold and tripping delay
1. Уставка тока защиты с длительной задержкой срабатывания и задержка срабатывания.
2 Overload alarm (LED) at 1,125 Ir.
2. Светодиодный индикатор перегрузки превышающей 1,125 Ir.
3 Short-time pick-up and tripping delay.
3. Уставка тока защиты с кратковременной задержкой срабатывания и задержка срабатывания.
4 Instantaneous pick-up.
4. Уставка тока защиты мгновенного срабатывания
5 Earth-fault pick-up and tripping delay.
5. Уставка тока защиты от замыкания на землю и задержка срабатывания
6 Earth-fault test button.
6. Кнопка проверки срабатывания при замыкании на землю
7 Long-time rating plug screw.
7. Калибратор защиты с длительной задержкой срабатывания
8 Test connector.
8. Разъем для тестирования
9 Lamp test, reset and battery test.
9. Кнопка сброса состояния срабатывания и проверки индикаторов и гальванического элемента
10 Indication of tripping cause.
10. Индикация причины срабатывания
11 Digital display.
11. Символьный экран
12 Three-phase bargraph and ammeter.
12. Светодиодные шкалы индикации токов фаз А, В и С
13 Navigation button “quick View”.
13. Кнопка быстрого просмотра
14 Navigation button to view menu contents.
14. Кнопка перемещения по меню
15 Navigation button to change menu
[Schneider Electric]15. Кнопка перехода от одного меню к другому
[Перевод Интент]Тематики
- выключатель автоматический
- расцепитель, тепловое реле
Классификация
>>>Синонимы
EN
Примечание(1) - термин Schneider ElectricАнгло-русский словарь нормативно-технической терминологии > trip system (1)
См. также в других словарях:
LED display — šviesadiodis indikatorius statusas T sritis automatika atitikmenys: angl. LED display; light emitting diode indicator vok. Leuchtdiodenanzeige, f rus. светодиодный индикатор, m pranc. afficheur à diodes électroluminescentes, m … Automatikos terminų žodynas
Display device — Nixie tubes, LED display and VF display, top to bottom. A display device is an output device for presentation of information in visual or tactile form (the latter used for example in tactile electronic displays for blind people). When the input… … Wikipedia
LED panels — There are two types of LED panels: conventional, using discrete LEDs, and surface mounted device (SMD) panels. Most outdoor screens and some indoor screens are built around discrete LEDs, also known as individually mounted LEDs. A cluster of red … Wikipedia
Display fluorescente de vacío — Saltar a navegación, búsqueda Fig. 1: Diagrama de un VFD típico. El acrónimo VFD, del inglés Vacuum Fluorescent Display, refiere a las pantallas fluorescentes de vacío. Consisten en una ampolla de vidrio que contiene uno o varios filamentos que… … Wikipedia Español
Display — may refer to: Display (horse) (1923–1944), an American thoroughbred racehorse Display (zoology), a form of animal behaviour Display advertising, type that typically contains text, i.e., copy, logos, images, location maps, etc. Display case, also… … Wikipedia
Display — Dis*play , n. 1. An opening or unfolding; exhibition; manifestation. [1913 Webster] Having witnessed displays of his power and grace. Trench. [1913 Webster] 2. Ostentatious show; exhibition for effect; parade. [1913 Webster] He died, as erring… … The Collaborative International Dictionary of English
display device — Display Dis*play , n. 1. An opening or unfolding; exhibition; manifestation. [1913 Webster] Having witnessed displays of his power and grace. Trench. [1913 Webster] 2. Ostentatious show; exhibition for effect; parade. [1913 Webster] He died, as… … The Collaborative International Dictionary of English
LED-Glas — ist ein Baustoff, welcher elektrisch betrieben, Licht emittiert. Im Wesentlichen besteht er aus Verbundglas oder Verbund Sicherheitsglas, welches im Innern eine transparente stromleitende Schicht beinhaltet, auf welcher sich LEDs befinden. Er… … Deutsch Wikipedia
LED-Fernseher — sind Fernsehgeräte, bei denen auf irgendeine Weise Leuchtdioden (LEDs) zur Erzeugung des Bildes eingesetzt werden. Meist handelt es sich um LC Displays, deren Hintergrundbeleuchtung aus Leuchtdioden besteht (siehe LED Hintergrundbeleuchtung).… … Deutsch Wikipedia
Display contrast — Contrast in visual perception is the difference in appearance of two or more parts of a field seen simultaneously or successively (hence: brightness contrast, lightness contrast, color contrast, simultaneous contrast, successive contrast, etc.).… … Wikipedia
Display resolution — For screen sizes (typically in inches, measured in the diagonal), see Display size. For a list of particular display resolutions, see Graphic display resolutions. This chart shows the most common display resolutions, with the color of each… … Wikipedia