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1 SIC technology
Макаров: (silicon integrated-circuit technology) технология изготовления кремниевых ИС, (silicon integrated-circuit technology) технология кремниевых ИС -
2 SIC technology
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3 SIC technology
English-Russian dictionary of microelectronics > SIC technology
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4 SIC technology
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5 SIC technology (silicon integrated-circuit technology)
Макаров: технология изготовления кремниевых ИС, технология кремниевых ИСУниверсальный англо-русский словарь > SIC technology (silicon integrated-circuit technology)
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6 silicon integrated-circuit technology (SIC technology)
Макаров: технология кремниевых ИСУниверсальный англо-русский словарь > silicon integrated-circuit technology (SIC technology)
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7 technology
1) техника2) технология3) метод; способ; (технологический) приём•- advanced technology
- advanced technology extended
- ALIVH technology
- anti technology
- anti-fuse technology
- any layer, inner via hole technology
- beam-lead technology
- bi-FET technology
- bipolar technology
- blend-to-analog technology
- bubble technology
- C-MOS technology
- communication technology
- compiled cell technology
- complementary MOS technology
- computer technology
- computer literacy and information technology
- conductive ink technology
- continuous read technology
- cryogenic technology
- data processing technology
- depletion technology
- diffusion technology
- digital watermarking technology
- discrete wire technology
- display technology
- D-MOS technology
- double-diffused MOS technology
- emerging technology
- encapsulation technology
- epitaxial technology
- flexible technology
- full-slice technology
- fusible-link technology
- fuzz-button technology
- glass-ambient technology
- high technology
- high speed technology
- hybrid technology
- IBOC technology
- in-band/on-channel technology
- information technology
- information technologies and systems
- integrated-circuit technology
- interactive technology
- isoplanar technology
- keyboard technology
- large-scale integration technology
- local oxidation on silicon technology
- locos technology
- loop technology
- magnetic-bubble domain technology
- magnetooptical technology
- master-slice technology
- measurement technology
- MEMS technology
- MEMS-based technology
- metal-oxide-semiconductor and bipolar technology
- microelectromechanical system technology
- microelectromechanical system-based technology
- microvia technology
- microwave technology
- millimeter-wave technology
- mixed technology
- M-O technology
- monolithic technology
- multimedia technology
- nanoscale technology
- optical technology
- optical fiber technology
- optical recording technology
- partial-response maximum likelihood read-channel technology
- phase change technology
- photomasking technology
- photoresist technology
- plug-and-jack technology
- polysilicon-gate technology
- pull technology
- pull-push technology
- push technology
- radar technology
- reduced instruction set computing technology
- reduced output swing technology
- remote automation technology
- remotely-manned technology
- resolution enhancement technology
- RISC technology
- robotics technology
- SAW technology
- semiconductor technology
- short-link wireless technology
- SIC technology
- silicon integrated-circuit technology
- solid logic technology
- solid-state technology
- space technology
- submicron technology
- surface-acoustic-wave technology
- surface mount technology
- surface-mounting technology
- transient electromagnetic pulse emanation surveillance technology
- Travan technology
- TRIM technology
- tri-mask technology
- trusted network technology
- ultra fine pitch technology
- vacuum technology
- very large-scale integration technology
- V-groove MOS technology
- V-MOS technology
- virtual technology
- zone-refining technology -
8 silicon integrated-circuit technology
1) Электроника: технология изготовления кремниевых ИС2) Макаров: (SIC technology) технология кремниевых ИСУниверсальный англо-русский словарь > silicon integrated-circuit technology
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9 information technology industry
индустрия информационных технологий
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
information technology industry
A sector of the economy in which an aggregate of commercial enterprises is engaged in the design, manufacture and marketing of electronic machines designed to accept information or data that is easily manipulated for some result based on a program or some set of instructions, and the technology or materials used with these machines, such as storage devices, terminals and peripheral equipment. (Source: WIC / SIC)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Англо-русский словарь нормативно-технической терминологии > information technology industry
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10 Benton, Linn Boyd
SUBJECT AREA: Paper and printing[br]b. 13 May 1844 Little Falls, New York, USAd. 15 July 1932 Plainfield, New Jersey, USA[br]American typefounder, cutter and designer, inventor of the automatic punch-cutting machine.[br]Benton spent his childhood in Milwaukee and La Crosse, where he early showed a talent for mechanical invention. His father was a lawyer with an interest in newspapers and who acquired the Milwaukee Daily News. Benton became familiar with typesetting equipment in his father's newspaper office. He learned the printer's trade at another newspaper office, at La Crosse, and later worked as bookkeeper at a type foundry in Milwaukee. When that failed in 1873, Benton acquired the plant, and when he was joined by R.V.Waldo the firm became Benton, Waldo \& Co. Benton began learning and improving type-cutting practice. He first devised unit-width or "self-spacing" type which became popular with compositors, saving, it was reckoned, 20 per cent of their time. Meanwhile, Benton worked on a punch-cutting machine to speed up the process of cutting letters in the steel punches from which matrices or moulds were formed to enable type to be cast from molten metal. His first mechanical punch-cutter worked successfully in 1884. The third machine, patented in 1885, was the model that revolutionized the typefounding operation. So far, punch-cutting had been done by hand, a rare and expensive skill that was insufficient to meet the demands of the new typesetting machines, the monotype of Lanston and the linotype of Merganthaler. These were threatened with failure until Benton saved the day with his automatic punch-cutter. Mechanizing punch-cutting and the forming of matrices made possible the typesetting revolution brought about by mono-and linotype.In 1892 Benton's firm merged with others to form the American Type Founders Company. Benton's equipment was moved to New York and he with it, to become a board member and Chief Technical Advisor. In 1894 he became Manager of the company's new plant for type manufacture in Jersey City. Benton steadily improved both machinery and processes, for which he was granted twenty patents. With his son Morris Fuller, he was also notable and prolific in the field of type design. Benton remained in active association with his company until just two weeks before his death.[br]Further ReadingObituary, 1932, Inland Printer (August): 53–4.P.Cost, 1985, "The contributions of Lyn [sic] Boyd Benton and Morris Fuller Benton to the technology of typesetting and the art of typeface design", unpublished MSc thesis, Rochester Institute of Technology (the most thorough treatment).H.L.Bullen, 1922, Inland Printer (October) (describes Benton's life and work).LRD -
11 Cartwright, Revd Edmund
[br]b. 24 April 1743 Marnham, Nottingham, Englandd. 30 October 1823 Hastings, Sussex, England[br]English inventor of the power loom, a combing machine and machines for making ropes, bread and bricks as well as agricultural improvements.[br]Edmund Cartwright, the fourth son of William Cartwright, was educated at Wakefield Grammar School, and went to University College, Oxford, at the age of 14. By special act of convocation in 1764, he was elected Fellow of Magdalen College. He married Alice Whitaker in 1772 and soon after was given the ecclesiastical living of Brampton in Derbyshire. In 1779 he was presented with the living of Goadby, Marwood, Leicestershire, where he wrote poems, reviewed new works, and began agricultural experiments. A visit to Matlock in the summer of 1784 introduced him to the inventions of Richard Arkwright and he asked why weaving could not be mechanized in a similar manner to spinning. This began a remarkable career of inventions.Cartwright returned home and built a loom which required two strong men to operate it. This was the first attempt in England to develop a power loom. It had a vertical warp, the reed fell with the weight of at least half a hundredweight and, to quote Gartwright's own words, "the springs which threw the shuttle were strong enough to throw a Congreive [sic] rocket" (Strickland 19.71:8—for background to the "rocket" comparison, see Congreve, Sir William). Nevertheless, it had the same three basics of weaving that still remain today in modern power looms: shedding or dividing the warp; picking or projecting the shuttle with the weft; and beating that pick of weft into place with a reed. This loom he proudly patented in 1785, and then he went to look at hand looms and was surprised to see how simply they operated. Further improvements to his own loom, covered by two more patents in 1786 and 1787, produced a machine with the more conventional horizontal layout that showed promise; however, the Manchester merchants whom he visited were not interested. He patented more improvements in 1788 as a result of the experience gained in 1786 through establishing a factory at Doncaster with power looms worked by a bull that were the ancestors of modern ones. Twenty-four looms driven by steam-power were installed in Manchester in 1791, but the mill was burned down and no one repeated the experiment. The Doncaster mill was sold in 1793, Cartwright having lost £30,000, However, in 1809 Parliament voted him £10,000 because his looms were then coming into general use.In 1789 he began working on a wool-combing machine which he patented in 1790, with further improvements in 1792. This seems to have been the earliest instance of mechanized combing. It used a circular revolving comb from which the long fibres or "top" were. carried off into a can, and a smaller cylinder-comb for teasing out short fibres or "noils", which were taken off by hand. Its output equalled that of twenty hand combers, but it was only relatively successful. It was employed in various Leicestershire and Yorkshire mills, but infringements were frequent and costly to resist. The patent was prolonged for fourteen years after 1801, but even then Cartwright did not make any profit. His 1792 patent also included a machine to make ropes with the outstanding and basic invention of the "cordelier" which he communicated to his friends, including Robert Fulton, but again it brought little financial benefit. As a result of these problems and the lack of remuneration for his inventions, Cartwright moved to London in 1796 and for a time lived in a house built with geometrical bricks of his own design.Other inventions followed fast, including a tread-wheel for cranes, metallic packing for pistons in steam-engines, and bread-making and brick-making machines, to mention but a few. He had already returned to agricultural improvements and he put forward suggestions in 1793 for a reaping machine. In 1801 he received a prize from the Board of Agriculture for an essay on husbandry, which was followed in 1803 by a silver medal for the invention of a three-furrow plough and in 1805 by a gold medal for his essay on manures. From 1801 to 1807 he ran an experimental farm on the Duke of Bedford's estates at Woburn.From 1786 until his death he was a prebendary of Lincoln. In about 1810 he bought a small farm at Hollanden near Sevenoaks, Kent, where he continued his inventions, both agricultural and general. Inventing to the last, he died at Hastings and was buried in Battle church.[br]Principal Honours and DistinctionsBoard of Agriculture Prize 1801 (for an essay on agriculture). Society of Arts, Silver Medal 1803 (for his three-furrow plough); Gold Medal 1805 (for an essay on agricultural improvements).Bibliography1785. British patent no. 1,270 (power loom).1786. British patent no. 1,565 (improved power loom). 1787. British patent no. 1,616 (improved power loom).1788. British patent no. 1,676 (improved power loom). 1790, British patent no. 1,747 (wool-combing machine).1790, British patent no. 1,787 (wool-combing machine).1792, British patent no. 1,876 (improved wool-combing machine and rope-making machine with cordelier).Further ReadingM.Strickland, 1843, A Memoir of the Life, Writings and Mechanical Inventions of Edmund Cartwright, D.D., F.R.S., London (remains the fullest biography of Cartwright).Dictionary of National Biography (a good summary of Cartwright's life). For discussions of Cartwright's weaving inventions, see: A.Barlow, 1878, The History and Principles of Weaving by Hand and by Power, London; R.L. Hills, 1970, Power in the Industrial Revolution, Manchester. F.Nasmith, 1925–6, "Fathers of machine cotton manufacture", Transactions of theNewcomen Society 6.H.W.Dickinson, 1942–3, "A condensed history of rope-making", Transactions of the Newcomen Society 23.W.English, 1969, The Textile Industry, London (covers both his power loom and his wool -combing machine).RLHBiographical history of technology > Cartwright, Revd Edmund
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12 Dunwoody, General Henry H.C.
[br]fl. c.1906 USA[br]American soldier and engineer noted for his discovery of the carborundum radio-signal detector.[br]An associate of Lee De Forest, Henry Dunwoody discovered in 1906 that the newly invented material silicon carbide (SiC) could be used as a solid-state detector of radio waves. His invention was patented in the UK on 23 March 1906.[br]Bibliography23 March 1906, British patent no. 5,332 (use of silicon carbide as a solid-state detector of radio waves).Further ReadingG.G.Blake, 1926, History of Telegraphy and Telephony, London: Radio Press. See also Branly, Edouard Eugène.KFBiographical history of technology > Dunwoody, General Henry H.C.
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13 Macintosh, Charles
[br]b. 29 December 1766 Glasgow, Scotlandd. 25 July 1843 Dunchattan, near Glasgow, Scotland[br]Scottish inventor of rubberized waterproof clothing.[br]As the son of the well-known and inventive dyer George Macintosh, Charles had an early interest in chemistry. At the age of 19 he gave up his work as a clerk with a Glasgow merchant to manufacture sal ammoniac (ammonium chloride) and developed new processes in dyeing. In 1797 he started the first Scottish alum works, finding the alum in waste shale from coal mines. His first works was at Hurlet, Renfrewshire, and was followed later by others. He then formed a partnership with Charles Tennant, the proprietor of a chemical works at St Rollox, near Glasgow, and sold "lime bleaching liquor" made with chlorine and milk of lime from their bleach works at Darnley. A year later the use of dry lime to make bleaching powder, a process worked out by Macintosh, was patented. Macintosh remained associated with Tennant's St Rollox chemical works until 1814. During this time, in 1809, he had set up a yeast factory, but it failed because of opposition from the London brewers.There was a steady demand for the ammonia that gas works produced, but the tar was often looked upon as an inconvenient waste product. Macintosh bought all the ammonia and tar that the Glasgow works produced, using the ammonia in his establishment to produce cudbear, a dyestuff extracted from various lichens. Cudbear could be used with appropriate mordants to make shades from pink to blue. The tar could be distilled to produce naphtha, which was used as a flare. Macintosh also became interested in ironmaking. In 1825 he took out a patent for converting malleable iron into steel by taking it to white heat in a current of gas with a carbon content, such as coal gas. However, the process was not commercially successful because of the difficulty keeping the furnace gas-tight. In 1828 he assisted J.B. Neilson in bringing hot blast into use in blast furnaces; Neilson assigned Macintosh a share in the patent, which was of dubious benefit as it involved him in the tortuous litigation that surrounded the patent until 1843.In June 1823, as a result of experiments into the possible uses of naphtha obtained as a by-product of the distillation of coal tar, Macintosh patented his process for waterproofing fabric. This comprised dissolving rubber in naphtha and applying the solution to two pieces of cloth which were afterwards pressed together to form an impermeable compound fabric. After an experimental period in Glasgow, Macintosh commenced manufacture in Manchester, where he formed a partnership with H.H.Birley, B.Kirk and R.W.Barton. Birley was a cotton spinner and weaver and was looking for ways to extend the output of his cloth. He was amongst the first to light his mills with gas, so he shared a common interest with Macintosh.New buildings were erected for the production of waterproof cloth in 1824–5, but there were considerable teething troubles with the process, particularly in the spreading of the rubber solution onto the cloth. Peter Ewart helped to install the machinery, including a steam engine supplied by Boulton \& Watt, and the naphtha was supplied from Macintosh's works in Glasgow. It seems that the process was still giving difficulties when Thomas Hancock, the foremost rubber technologist of that time, became involved in 1830 and was made a partner in 1834. By 1836 the waterproof coat was being called a "mackintosh" [sic] and was gaining such popularity that the Manchester business was expanded with additional premises. Macintosh's business was gradually enlarged to include many other kinds of indiarubber products, such as rubber shoes and cushions.[br]Principal Honours and DistinctionsFRS 1823.Further ReadingG.Macintosh, 1847, Memoir of Charles Macintosh, London (the fullest account of Charles Macintosh's life).T.Hancock, 1957, Narrative of the Indiarubber Manufacture, London.H.Schurer, 1953, "The macintosh: the paternity of an invention", Transactions of the Newcomen Society 28:77–87 (an account of the invention of the mackintosh).RLH / LRD
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