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41 aits
1) Американизм: Action Item Tracking System, Adopted Information Technology Standards2) Военный термин: automatic integrated telephone system3) Техника: расширенное информационно-техническое обслуживание (Advanced Information Technology Services), система автоматического тестирования I-уровня (Automatic I-Level Testing System)4) Сельское хозяйство: Agricultural Industries Transportation Services, Agriculture Industry Transportation Services5) Юридический термин: Automated Incident Tracking System6) Телекоммуникации: Acknowledged Information Transfer Service (ITU-T)7) Университет: Academic And Instructional Technology Support, Academic Information Technology Services8) Банковское дело: Ассоциация инвестиционных трастов (Великобритания; Association of Investment Trust Companies)9) Фирменный знак: Administrative Information And Technology Services, Administrative Information Technology Services10) Деловая лексика: Advanced Information Technology Services, Automated Inventory Tracking System11) Инвестиции: Association of Investment Trust Companies12) Безопасность: Advanced Interface For Tactical Security13) Общественная организация: Australian Information Technology Society14) Должность: Accredited Interviewer Training Scheme -
42 FIT
1) Компьютерная техника: Folding Integrated Technology, For Information Translation, Forum For Information Technology3) Американизм: Foreign Independent Travel4) Спорт: Fitness Introductory Training, Focusing In Technique, Международная федерация прыжков на батуте5) Военный термин: Field Interactive Training, First In Training, Flight In Training, Future Infantry Technologies, far-infrared tracking, field installation test, field integrated tests, forward inspection team6) Техника: fabrication, integration and test, failure in 109 component hours, far-infrared track, fault isolation testing, fixed interval timer, flexible-infrared transmissive waveguide, flight instrument trainer, flow indicator transmitter, functional integration test7) Юридический термин: Females In Trouble8) Лингвистика: (Federation internationale des traducteurs) Международная федерация переводчиков9) Оптика: flexible infrared transmission10) Сокращение: Federal Income Tax, Federal Information Technologies, inc., fault isolation test, raintight, real time11) Университет: Faculty Of Information Technology12) Электроника: Failure unit13) Вычислительная техника: Failures In Time14) Нефть: formation integrity test, formation interval flow test, formation interval tester, единица интенсивности отказов (один отказ на 1 млрд. ч наработки, failure unit), испытания с целью обнаружения неисправностей, прибор для поинтервального опробования пластов15) Транспорт: Fit and Independent Traveler16) Фирменный знак: Flinders Innovative Technology, Focused Individual Training17) Энергетика: вводный тариф, специальный закупочный тариф, специальный тариф для стимулирования возобновляемой энергетики, feed-in tariff19) Глоссарий компании Сахалин Энерджи: First Intervention team20) Образование: Flexibility Inclusiveness And Teambuilding, Flexible Innovative And Trainable21) Сетевые технологии: Flexible Image Transport, Form Interactive Technology22) ЕБРР: Financial Institutions Team23) Туризм: самостоятельный, свободный путешественник, независимый путешественник или турист (free independent traveler http://i-traveler.ru/independent_tourism.php)24) Сахалин Ю: fabrication-in-transit25) Химическое оружие: field investigation team26) Расширение файла: File Information Table, Flexible Image Transport System Graphics and data, Graphic format (FITS), File Index Table (Windows NT)27) Должность: Fireman In Training28) Чат: Fashion Institute Of Technology29) Программное обеспечение: Framework For Integrated Tests30) AMEX. Fab Industries, Inc. -
43 Fit
1) Компьютерная техника: Folding Integrated Technology, For Information Translation, Forum For Information Technology3) Американизм: Foreign Independent Travel4) Спорт: Fitness Introductory Training, Focusing In Technique, Международная федерация прыжков на батуте5) Военный термин: Field Interactive Training, First In Training, Flight In Training, Future Infantry Technologies, far-infrared tracking, field installation test, field integrated tests, forward inspection team6) Техника: fabrication, integration and test, failure in 109 component hours, far-infrared track, fault isolation testing, fixed interval timer, flexible-infrared transmissive waveguide, flight instrument trainer, flow indicator transmitter, functional integration test7) Юридический термин: Females In Trouble8) Лингвистика: (Federation internationale des traducteurs) Международная федерация переводчиков9) Оптика: flexible infrared transmission10) Сокращение: Federal Income Tax, Federal Information Technologies, inc., fault isolation test, raintight, real time11) Университет: Faculty Of Information Technology12) Электроника: Failure unit13) Вычислительная техника: Failures In Time14) Нефть: formation integrity test, formation interval flow test, formation interval tester, единица интенсивности отказов (один отказ на 1 млрд. ч наработки, failure unit), испытания с целью обнаружения неисправностей, прибор для поинтервального опробования пластов15) Транспорт: Fit and Independent Traveler16) Фирменный знак: Flinders Innovative Technology, Focused Individual Training17) Энергетика: вводный тариф, специальный закупочный тариф, специальный тариф для стимулирования возобновляемой энергетики, feed-in tariff19) Глоссарий компании Сахалин Энерджи: First Intervention team20) Образование: Flexibility Inclusiveness And Teambuilding, Flexible Innovative And Trainable21) Сетевые технологии: Flexible Image Transport, Form Interactive Technology22) ЕБРР: Financial Institutions Team23) Туризм: самостоятельный, свободный путешественник, независимый путешественник или турист (free independent traveler http://i-traveler.ru/independent_tourism.php)24) Сахалин Ю: fabrication-in-transit25) Химическое оружие: field investigation team26) Расширение файла: File Information Table, Flexible Image Transport System Graphics and data, Graphic format (FITS), File Index Table (Windows NT)27) Должность: Fireman In Training28) Чат: Fashion Institute Of Technology29) Программное обеспечение: Framework For Integrated Tests30) AMEX. Fab Industries, Inc. -
44 TIM
1) Компьютерная техника: Tactile Interactive Monitor, terrestrial interface module2) Американизм: Total Information Management, Tourist Information Material3) Военный термин: Target Intelligence Material, Technical Interface Meetings, Training In Mission, Transformation Of Installation Management, tactical interdiction mission, target incendiary marker, technical information manual, technical information on microfilm, test instrumented missile, tracking instruction manual, ТВМ (thermal imaging module), тепловизионный модуль4) Техника: telephone interface module, temperature indicator monitor, time indicator, miniature, time interval measurement, time interval meter, timing circuit, tracking instrument mount, traffic interface module, transient intermodulation distortion, transistor information microfile, trigger inverter module, Toxic Industrial Material5) Религия: Teens In Mission, Timothy, Training In Ministry6) Телекоммуникации: TCP/IP Inverse Multiplexing Protocol, Telecom Idea Management, несовпадение идентификатора трассировки (Time Identifier Mismatch)7) Сокращение: Tactical Internet Model, Target Information Module, Ticket-Issue Machines Ltd (manufacturer), Transmission Interface Module, time meter, track imitation8) Электроника: Transparent Insulation Materials9) Вычислительная техника: Thermal Interface Material (CPU), Token Interface Module (Token Ring)10) Транспорт: Thunder In Muncie11) Деловая лексика: Target Industry Marketing, Technology Industry And Manufacturing12) Образование: Technology Instructional Mentor13) Химическое оружие: technical interchange meeting14) Расширение файла: Technical Information Memo (Compaq)15) Строительные материалы: HIM, heat insulating material, heat insulation material, thermal insulating material, thermal insulation material, теплоизолирующий материал, теплоизоляционный материал, термоизолирующий материал, термоизоляционный материал16) Электротехника: time-interval meter17) Чат: This Is Mine -
45 Tim
1) Компьютерная техника: Tactile Interactive Monitor, terrestrial interface module2) Американизм: Total Information Management, Tourist Information Material3) Военный термин: Target Intelligence Material, Technical Interface Meetings, Training In Mission, Transformation Of Installation Management, tactical interdiction mission, target incendiary marker, technical information manual, technical information on microfilm, test instrumented missile, tracking instruction manual, ТВМ (thermal imaging module), тепловизионный модуль4) Техника: telephone interface module, temperature indicator monitor, time indicator, miniature, time interval measurement, time interval meter, timing circuit, tracking instrument mount, traffic interface module, transient intermodulation distortion, transistor information microfile, trigger inverter module, Toxic Industrial Material5) Религия: Teens In Mission, Timothy, Training In Ministry6) Телекоммуникации: TCP/IP Inverse Multiplexing Protocol, Telecom Idea Management, несовпадение идентификатора трассировки (Time Identifier Mismatch)7) Сокращение: Tactical Internet Model, Target Information Module, Ticket-Issue Machines Ltd (manufacturer), Transmission Interface Module, time meter, track imitation8) Электроника: Transparent Insulation Materials9) Вычислительная техника: Thermal Interface Material (CPU), Token Interface Module (Token Ring)10) Транспорт: Thunder In Muncie11) Деловая лексика: Target Industry Marketing, Technology Industry And Manufacturing12) Образование: Technology Instructional Mentor13) Химическое оружие: technical interchange meeting14) Расширение файла: Technical Information Memo (Compaq)15) Строительные материалы: HIM, heat insulating material, heat insulation material, thermal insulating material, thermal insulation material, теплоизолирующий материал, теплоизоляционный материал, термоизолирующий материал, термоизоляционный материал16) Электротехника: time-interval meter17) Чат: This Is Mine -
46 fit
1) Компьютерная техника: Folding Integrated Technology, For Information Translation, Forum For Information Technology3) Американизм: Foreign Independent Travel4) Спорт: Fitness Introductory Training, Focusing In Technique, Международная федерация прыжков на батуте5) Военный термин: Field Interactive Training, First In Training, Flight In Training, Future Infantry Technologies, far-infrared tracking, field installation test, field integrated tests, forward inspection team6) Техника: fabrication, integration and test, failure in 109 component hours, far-infrared track, fault isolation testing, fixed interval timer, flexible-infrared transmissive waveguide, flight instrument trainer, flow indicator transmitter, functional integration test7) Юридический термин: Females In Trouble8) Лингвистика: (Federation internationale des traducteurs) Международная федерация переводчиков9) Оптика: flexible infrared transmission10) Сокращение: Federal Income Tax, Federal Information Technologies, inc., fault isolation test, raintight, real time11) Университет: Faculty Of Information Technology12) Электроника: Failure unit13) Вычислительная техника: Failures In Time14) Нефть: formation integrity test, formation interval flow test, formation interval tester, единица интенсивности отказов (один отказ на 1 млрд. ч наработки, failure unit), испытания с целью обнаружения неисправностей, прибор для поинтервального опробования пластов15) Транспорт: Fit and Independent Traveler16) Фирменный знак: Flinders Innovative Technology, Focused Individual Training17) Энергетика: вводный тариф, специальный закупочный тариф, специальный тариф для стимулирования возобновляемой энергетики, feed-in tariff19) Глоссарий компании Сахалин Энерджи: First Intervention team20) Образование: Flexibility Inclusiveness And Teambuilding, Flexible Innovative And Trainable21) Сетевые технологии: Flexible Image Transport, Form Interactive Technology22) ЕБРР: Financial Institutions Team23) Туризм: самостоятельный, свободный путешественник, независимый путешественник или турист (free independent traveler http://i-traveler.ru/independent_tourism.php)24) Сахалин Ю: fabrication-in-transit25) Химическое оружие: field investigation team26) Расширение файла: File Information Table, Flexible Image Transport System Graphics and data, Graphic format (FITS), File Index Table (Windows NT)27) Должность: Fireman In Training28) Чат: Fashion Institute Of Technology29) Программное обеспечение: Framework For Integrated Tests30) AMEX. Fab Industries, Inc. -
47 tim
1) Компьютерная техника: Tactile Interactive Monitor, terrestrial interface module2) Американизм: Total Information Management, Tourist Information Material3) Военный термин: Target Intelligence Material, Technical Interface Meetings, Training In Mission, Transformation Of Installation Management, tactical interdiction mission, target incendiary marker, technical information manual, technical information on microfilm, test instrumented missile, tracking instruction manual, ТВМ (thermal imaging module), тепловизионный модуль4) Техника: telephone interface module, temperature indicator monitor, time indicator, miniature, time interval measurement, time interval meter, timing circuit, tracking instrument mount, traffic interface module, transient intermodulation distortion, transistor information microfile, trigger inverter module, Toxic Industrial Material5) Религия: Teens In Mission, Timothy, Training In Ministry6) Телекоммуникации: TCP/IP Inverse Multiplexing Protocol, Telecom Idea Management, несовпадение идентификатора трассировки (Time Identifier Mismatch)7) Сокращение: Tactical Internet Model, Target Information Module, Ticket-Issue Machines Ltd (manufacturer), Transmission Interface Module, time meter, track imitation8) Электроника: Transparent Insulation Materials9) Вычислительная техника: Thermal Interface Material (CPU), Token Interface Module (Token Ring)10) Транспорт: Thunder In Muncie11) Деловая лексика: Target Industry Marketing, Technology Industry And Manufacturing12) Образование: Technology Instructional Mentor13) Химическое оружие: technical interchange meeting14) Расширение файла: Technical Information Memo (Compaq)15) Строительные материалы: HIM, heat insulating material, heat insulation material, thermal insulating material, thermal insulation material, теплоизолирующий материал, теплоизоляционный материал, термоизолирующий материал, термоизоляционный материал16) Электротехника: time-interval meter17) Чат: This Is Mine -
48 automation technologies
технологии для автоматизации
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[Интент]Параллельные тексты EN-RU
Automation technologies: a strong focal point for our R&D
Технологии для автоматизации - одна из главных тем наших научно исследовательских разработок
Automation is an area of ABB’s business with an extremely high level of technological innovation.
Автоматика относится к одной из областей деятельности компании АББ, для которой характерен исключительно высокий уровень технических инноваций.
In fact, it may be seen as a showcase for exhibiting the frontiers of development in several of today’s emerging technologies, like short-range wireless communication and microelectromechanical systems (MEMS).
В определенном смысле ее можно уподобить витрине, в которой выставлены передовые разработки из области только еще зарождающихся технологий, примерами которых являются ближняя беспроводная связь и микроэлектромеханические системы (micro electromechanical systems MEMS).
Mechatronics – the synthesis of mechanics and electronics – is another very exciting and rapidly developing area, and the foundation on which ABB has built its highly successful, fast-growing robotics business.
Еще одной исключительно интересной быстро развивающейся областью и в то же время фундаментом, на котором АББ в последнее время строит свой исключительно успешный и быстро расширяющийся бизнес в области робототехники, является мехатроника - синтез механики с электроникой.
Robotic precision has now reached the levels we have come to expect of the watch-making industry, while robots’ mechanical capabilities continue to improve significantly.
Точность работы робототехнических устройств достигла сегодня уровней, которые мы привыкли ожидать только на предприятиях часовой промышленности. Большими темпами продолжают расти и механические возможности роботов.
Behind the scenes, highly sophisticated electronics and software control every move these robots make.
А за кулисами всеми перемещениями робота управляют сложные электронные устройства и компьютерные программы.
Throughout industry today we see a major shift of ‘intelligence’ to lower levels in the automation system hierarchy, leading to a demand for more communication within the system.
Во всех отраслях промышленности сегодня наблюдается интенсивный перенос "интеллекта" на нижние уровни иерархии автоматизированных систем, что требует дальнейшего развития внутрисистемных средств обмена.
‘Smart’ transmitters, with powerful microprocessors, memory chips and special software, carry out vital operations close to the processes they are monitoring.
"Интеллектуальные" датчики, снабженные высокопроизводительными микропроцессорами, мощными чипами памяти и специальным программно-математическим обеспечением, выполняют особо ответственные операции в непосредственной близости от контролируемых процессов.
And they capture and store data crucial for remote diagnostics and maintenance.
Они же обеспечивают возможность измерения и регистрации информации, крайне необходимой для дистанционной диагностики и дистанционного обслуживания техники.
The communication highway linking such systems is provided by fieldbuses.
В качестве коммуникационных магистралей, связывающих такого рода системы, служат промышленные шины fieldbus.
In an ideal world there would be no more than a few, preferably just one, fieldbus standard.
В идеале на промышленные шины должно было бы существовать небольшое количество, а лучше всего вообще только один стандарт.
However, there are still too many of them, so ABB has developed ‘fieldbus plugs’ that, with the help of translation, enable devices to communicate across different standards.
К сожалению, на деле количество их типов продолжает оставаться слишком разнообразным. Ввиду этой особенности рынка промышленных шин компанией АББ разработаны "штепсельные разъемы", которые с помощью средств преобразования обеспечивают общение различных устройств вопреки границам, возникшим из-за различий в стандартах.
This makes life easier as well as less costly for our customers. Every automation system is dependent on an electrical network for distributing – and interrupting, when necessary – the power needed to carry out its various functions.
Это, безусловно, не только облегчает, но и удешевляет жизнь нашим заказчикам. Ни одна система автоматики не может работать без сети, обеспечивающей подачу, а при необходимости и отключение напряжения, необходимого для выполнения автоматикой своих задач.
Here, too, we see a clear trend toward more intelligence and communication, for example in traditional electromechanical devices such as contactors and switches.
И здесь наблюдаются отчетливо выраженные тенденции к повышению уровня интеллектуальности и расширению возможностей связи, например, в таких традиционных электромеханических устройствах, как контакторы и выключатели.
We are pleased to see that our R&D efforts in these areas over the past few years are bearing fruit.
Мы с удовлетворением отмечаем, что научно-исследовательские разработки, выполненные нами за последние годы в названных областях, начинают приносить свои плоды.
Recently, we have seen a strong increase in the use of wireless technology in industry.
В последнее время на промышленных предприятиях наблюдается резкое расширение применения техники беспроводной связи.
This is a key R&D area at ABB, and several prototype applications have already been developed.
В компании АББ эта область также относится к числу одной из ключевых тем научно-исследовательских разработок, результатом которых стало создание ряда опытных образцов изделий практического направления.
At the international Bluetooth Conference in Amsterdam in June 2002, we presented a truly ‘wire-less’ proximity sensor – with even a wireless power supply.
На международной конференции по системам Bluetooth, состоявшейся в Амстердаме в июне 2002 г., наши специалисты выступили с докладом о поистине "беспроводном" датчике ближней локации, снабженном опять-таки "беспроводным" источником питания.
This was its second major showing after the launch at the Hanover Fair.
На столь крупном мероприятии это устройство демонстрировалось во второй раз после своего первого показа на Ганноверской торгово-промышленной ярмарке.
Advances in microelectronic device technology are also having a profound impact on the power electronics systems around which modern drive systems are built.
Достижения в области микроэлектроники оказывают также глубокое влияние на системы силовой электроники, лежащие в основе современных приводных устройств.
The ABB drive family ACS 800 is visible proof of this.
Наглядным тому доказательством может служить линейка блоков регулирования частоты вращения электродвигателей ACS-800, производство которой начато компанией АББ.
Combining advanced trench gate IGBT technology with efficient cooling and innovative design, this drive – for motors rated from 1.1 to 500 kW – has a footprint for some power ranges which is six times smaller than competing systems.
Предназначены они для двигателей мощностью от 1,1 до 500 кВт. В блоках применена новейшая разновидность приборов - биполярные транзисторы с изолированным желобковым затвором (trench gate IGBT) в сочетании с новыми конструктивными решениями, благодаря чему в отдельных диапазонах мощностей габариты блоков удалось снизить по сравнению с конкурирующими изделиями в шесть раз.
To get the maximum benefit out of this innovative drive solution we have also developed a new permanent magnet motor.
Стремясь с максимальной пользой использовать новые блоки регулирования, мы параллельно с ними разработали новый двигатель с постоянными магнитами.
It uses neodymium iron boron, a magnetic material which is more powerful at room temperature than any other known today.
В нем применен новый магнитный материал на основе неодима, железа и бора, характеристики которого при комнатной температуре на сегодняшний день не имеют себе равных.
The combination of new drive and new motor reduces losses by as much as 30%, lowering energy costs and improving sustainability – both urgently necessary – at the same time.
Совместное использование нового блока регулирования частоты вращения с новым двигателем снижает потери мощности до 30 %, что позволяет решить сразу две исключительно актуальные задачи:
сократить затраты на электроэнергию и повысить уровень безотказности.These innovations are utilized most fully, and yield the maximum benefit, when integrated by means of our Industrial IT architecture.
Потенциал перечисленных выше новых разработок используется в наиболее полной степени, а сами они приносят максимальную выгоду, если их интеграция осуществлена на основе нашей архитектуры IndustrialIT.
Industrial IT is a unique platform for exploiting the full potential of information technology in industrial applications.
IndustrialIT представляет собой уникальную платформу, позволяющую в максимальной степени использовать возможности информационных технологий применительно к задачам промышленности.
Consequently, our new products and technologies are Industrial IT Enabled, meaning that they can be integrated in the Industrial IT architecture in a ‘plug and produce’ manner.
Именно поэтому все наши новые изделия и технологии выпускаются в варианте, совместимом с архитектурой IndustrialIT, что означает их способность к интеграции с этой архитектурой по принципу "подключи и производи".
We are excited to present in this issue of ABB Review some of our R&D work and a selection of achievements in such a vital area of our business as Automation.
Мы рады представить в настоящем номере "АББ ревю" некоторые из наших научно-исследовательских разработок и достижений в такой жизненно важной для нашего бизнеса области, как автоматика.
R&D investment in our corporate technology programs is the foundation on which our product and system innovation is built.
Вклад наших разработок в общекорпоративные технологические программы группы АББ служит основой для реализации новых технических решений в создаваемых нами устройствах и системах.
Examples abound in the areas of control engineering, MEMS, wireless communication, materials – and, last but not least, software technologies. Enjoy reading about them.
[ABB Review]Это подтверждается многочисленными примерами из области техники управления, микроэлектромеханических систем, ближней радиосвязи, материаловедения и не в последнюю очередь программотехники. Хотелось бы пожелать читателю получить удовольствие от чтения этих материалов.
[Перевод Интент]
Тематики
EN
Англо-русский словарь нормативно-технической терминологии > automation technologies
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49 De Forest, Lee
SUBJECT AREA: Broadcasting, Electronics and information technology, Photography, film and optics, Recording, Telecommunications[br]b. 26 August 1873 Council Bluffs, Iowa, USAd. 30 June 1961 Hollywood, California, USA[br]American electrical engineer and inventor principally known for his invention of the Audion, or triode, vacuum tube; also a pioneer of sound in the cinema.[br]De Forest was born into the family of a Congregational minister that moved to Alabama in 1879 when the father became President of a college for African-Americans; this was a position that led to the family's social ostracism by the white community. By the time he was 13 years old, De Forest was already a keen mechanical inventor, and in 1893, rejecting his father's plan for him to become a clergyman, he entered the Sheffield Scientific School of Yale University. Following his first degree, he went on to study the propagation of electromagnetic waves, gaining a PhD in physics in 1899 for his thesis on the "Reflection of Hertzian Waves from the Ends of Parallel Wires", probably the first US thesis in the field of radio.He then joined the Western Electric Company in Chicago where he helped develop the infant technology of wireless, working his way up from a modest post in the production area to a position in the experimental laboratory. There, working alone after normal working hours, he developed a detector of electromagnetic waves based on an electrolytic device similar to that already invented by Fleming in England. Recognizing his talents, a number of financial backers enabled him to set up his own business in 1902 under the name of De Forest Wireless Telegraphy Company; he was soon demonstrating wireless telegraphy to interested parties and entering into competition with the American Marconi Company.Despite the failure of this company because of fraud by his partners, he continued his experiments; in 1907, by adding a third electrode, a wire mesh, between the anode and cathode of the thermionic diode invented by Fleming in 1904, he was able to produce the amplifying device now known as the triode valve and achieve a sensitivity of radio-signal reception much greater than possible with the passive carborundum and electrolytic detectors hitherto available. Patented under the name Audion, this new vacuum device was soon successfully used for experimental broadcasts of music and speech in New York and Paris. The invention of the Audion has been described as the beginning of the electronic era. Although much development work was required before its full potential was realized, the Audion opened the way to progress in all areas of sound transmission, recording and reproduction. The patent was challenged by Fleming and it was not until 1943 that De Forest's claim was finally recognized.Overcoming the near failure of his new company, the De Forest Radio Telephone Company, as well as unsuccessful charges of fraudulent promotion of the Audion, he continued to exploit the potential of his invention. By 1912 he had used transformer-coupling of several Audion stages to achieve high gain at radio frequencies, making long-distance communication a practical proposition, and had applied positive feedback from the Audion output anode to its input grid to realize a stable transmitter oscillator and modulator. These successes led to prolonged patent litigation with Edwin Armstrong and others, and he eventually sold the manufacturing rights, in retrospect often for a pittance.During the early 1920s De Forest began a fruitful association with T.W.Case, who for around ten years had been working to perfect a moving-picture sound system. De Forest claimed to have had an interest in sound films as early as 1900, and Case now began to supply him with photoelectric cells and primitive sound cameras. He eventually devised a variable-density sound-on-film system utilizing a glow-discharge modulator, the Photion. By 1926 De Forest's Phonofilm had been successfully demonstrated in over fifty theatres and this system became the basis of Movietone. Though his ideas were on the right lines, the technology was insufficiently developed and it was left to others to produce a system acceptable to the film industry. However, De Forest had played a key role in transforming the nature of the film industry; within a space of five years the production of silent films had all but ceased.In the following decade De Forest applied the Audion to the development of medical diathermy. Finally, after spending most of his working life as an independent inventor and entrepreneur, he worked for a time during the Second World War at the Bell Telephone Laboratories on military applications of electronics.[br]Principal Honours and DistinctionsInstitute of Electronic and Radio Engineers Medal of Honour 1922. President, Institute of Electronic and Radio Engineers 1930. Institute of Electrical and Electronics Engineers Edison Medal 1946.Bibliography1904, "Electrolytic detectors", Electrician 54:94 (describes the electrolytic detector). 1907, US patent no. 841,387 (the Audion).1950, Father of Radio, Chicago: WIlcox \& Follett (autobiography).De Forest gave his own account of the development of his sound-on-film system in a series of articles: 1923. "The Phonofilm", Transactions of the Society of Motion Picture Engineers 16 (May): 61–75; 1924. "Phonofilm progress", Transactions of the Society of Motion Picture Engineers 20:17–19; 1927, "Recent developments in the Phonofilm", Transactions of the Society of Motion Picture Engineers 27:64–76; 1941, "Pioneering in talking pictures", Journal of the Society of Motion Picture Engineers 36 (January): 41–9.Further ReadingG.Carneal, 1930, A Conqueror of Space (biography).I.Levine, 1964, Electronics Pioneer, Lee De Forest (biography).E.I.Sponable, 1947, "Historical development of sound films", Journal of the Society of Motion Picture Engineers 48 (April): 275–303 (an authoritative account of De Forest's sound-film work, by Case's assistant).W.R.McLaurin, 1949, Invention and Innovation in the Radio Industry.C.F.Booth, 1955, "Fleming and De Forest. An appreciation", in Thermionic Valves 1904– 1954, IEE.V.J.Phillips, 1980, Early Radio Detectors, London: Peter Peregrinus.KF / JW -
50 EICTA
(European Information, Communications and Consumer Electronics Technology Industry Association) Европейская промышленная ассоциация информационно-коммуникационных технологий, ассоциация ЕПАИКТ (EICTA)была основана 1 октября 2001 г. в результате слияния двух организаций: Европейской ассоциации производителей бытовой электроники (ЕАСЕМ - European Association of Consumer Electronics Manufacturers) и Европейской ассоциации индустрии информационно-коммуникационных технологий (EICTA - European Information and Communications Technology [Industry] Association), при этом новой организации была оставлена аббревиатура EICTA. Полноправными членами созданной организации являются 45 крупных многонациональных компаний, 28 национальных ассоциаций (из 18 европейских стран). В общей сложности ЕПАИКТ представляет интересы более 10 тыс. компаний всех стран Европы (включая все государства ЕС), насчитывающих более 1,5 млн работников и с общим доходом, превышающим 190 млрд евроАнгло-русский толковый словарь терминов и сокращений по ВТ, Интернету и программированию. > EICTA
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51 IIT
1) Общая лексика: Instituto de Investigacion Tecnologica2) Медицина: Исследование, инициированное индивидуальным исследователем (Investigator-Initiated Trial (Если это докторская или кандидатская, как правило, всё исследование проводится одним человеком))3) Техника: Incident Investigation Team, image intensifier tube4) Юридический термин: Institute Of Infinite Torture5) Экономика: intra-industry trade6) Телекоммуникации: Integrated Information Transport7) Университет: India Institute Of Technology, Indian Institute Of Technology8) Фирменный знак: Intelligent Interface Technologies9) Полимеры: Illinois Institute of Technology10) Должность: Integrated Information Technology11) NYSE. Indonesian Satellite Corporation -
52 Zworykin, Vladimir Kosma
[br]b. 30 July 1889 Mourum (near Moscow), Russiad. 29 July 1982 New York City, New York, USA[br]Russian (naturalized American 1924) television pioneer who invented the iconoscope and kinescope television camera and display tubes.[br]Zworykin studied engineering at the Institute of Technology in St Petersburg under Boris Rosing, assisting the latter with his early experiments with television. After graduating in 1912, he spent a time doing X-ray research at the Collège de France in Paris before returning to join the Russian Marconi Company, initially in St Petersburg and then in Moscow. On the outbreak of war in 1917, he joined the Russian Army Signal Corps, but when the war ended in the chaos of the Revolution he set off on his travels, ending up in the USA, where he joined the Westinghouse Corporation. There, in 1923, he filed the first of many patents for a complete system of electronic television, including one for an all-electronic scanning pick-up tube that he called the iconoscope. In 1924 he became a US citizen and invented the kinescope, a hard-vacuum cathode ray tube (CRT) for the display of television pictures, and the following year he patented a camera tube with a mosaic of photoelectric elements and gave a demonstration of still-picture TV. In 1926 he was awarded a PhD by the University of Pittsburgh and in 1928 he was granted a patent for a colour TV system.In 1929 he embarked on a tour of Europe to study TV developments; on his return he joined the Radio Corporation of America (RCA) as Director of the Electronics Research Group, first at Camden and then Princeton, New Jersey. Securing a budget to develop an improved CRT picture tube, he soon produced a kinescope with a hard vacuum, an indirectly heated cathode, a signal-modulation grid and electrostatic focusing. In 1933 an improved iconoscope camera tube was produced, and under his direction RCA went on to produce other improved types of camera tube, including the image iconoscope, the orthicon and image orthicon and the vidicon. The secondary-emission effect used in many of these tubes was also used in a scintillation radiation counter. In 1941 he was responsible for the development of the first industrial electron microscope, but for most of the Second World War he directed work concerned with radar, aircraft fire-control and TV-guided missiles.After the war he worked for a time on high-speed memories and medical electronics, becoming Vice-President and Technical Consultant in 1947. He "retired" from RCA and was made an honorary vice-president in 1954, but he retained an office and continued to work there almost up until his death; he also served as Director of the Rockefeller Institute for Medical Research from 1954 until 1962.[br]Principal Honours and DistinctionsZworykin received some twenty-seven awards and honours for his contributions to television engineering and medical electronics, including the Institution of Electrical Engineers Faraday Medal 1965; US Medal of Science 1966; and the US National Hall of Fame 1977.Bibliography29 December 1923, US patent no. 2,141, 059 (the original iconoscope patent; finally granted in December 1938!).13 July 1925, US patent no. 1,691, 324 (colour television system).1930, with D.E.Wilson, Photocells and Their Applications, New York: Wiley. 1934, "The iconoscope. A modern version of the electric eye". Proceedings of theInstitute of Radio Engineers 22:16.1946, Electron Optics and the Electron Microscope.1940, with G.A.Morton, Television; revised 1954.1949, with E.G.Ramberg, Photoelectricity and Its Applications. 1958, Television in Science and Industry.Further ReadingJ.H.Udelson, 1982, The Great Television Race: History of the Television Industry 1925– 41: University of Alabama Press.KFBiographical history of technology > Zworykin, Vladimir Kosma
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53 ITA
1) Компьютерная техника: Information technology Automation2) Американизм: Improved Trade Agreement, Income Tax Act4) Военный термин: Intelligence Terrain Analyzer, International Telegraph Alphabet, individual task authorization, inner transport area, instrument time, actual, intelligence threat analysis5) Метеорология: International Tornado Association6) Автомобильный термин: ignition timing adjustment7) Телевидение: независимый телевизионный аудитор8) Телекоммуникации: Inferior Telecommunications Apparatus9) Сокращение: Independent Teachers Association, Independent Television Authority, Intelligent Task Authority (USAF), International Touring Alliance, Italian, International Tin Agreement, International Trade Administration10) Вычислительная техника: Interim Type Approval11) Стоматология: immediate temporary abutment12) Транспорт: International Taxicab Association, International Trade Association13) СМИ: International Tape/Disc Association14) Деловая лексика: Individual Training Account, Industry Technical Agreement15) Образование: In Trouble Again, Information Technology Academy16) Сетевые технологии: Interactive Television Association17) Медицинская техника: Innovative Transmitting Apodization (технология компании Mindray, Китай)18) Яхтенный спорт: Италия (Обозначения на парусах)19) Общественная организация: Interior Taxpayers Association20) Должность: International Teaching Assistant21) Чат: I Totally Agree22) NYSE. Italy Fund, Inc.23) Программное обеспечение: Intelligent Text Analyser -
54 Ita
1) Компьютерная техника: Information technology Automation2) Американизм: Improved Trade Agreement, Income Tax Act4) Военный термин: Intelligence Terrain Analyzer, International Telegraph Alphabet, individual task authorization, inner transport area, instrument time, actual, intelligence threat analysis5) Метеорология: International Tornado Association6) Автомобильный термин: ignition timing adjustment7) Телевидение: независимый телевизионный аудитор8) Телекоммуникации: Inferior Telecommunications Apparatus9) Сокращение: Independent Teachers Association, Independent Television Authority, Intelligent Task Authority (USAF), International Touring Alliance, Italian, International Tin Agreement, International Trade Administration10) Вычислительная техника: Interim Type Approval11) Стоматология: immediate temporary abutment12) Транспорт: International Taxicab Association, International Trade Association13) СМИ: International Tape/Disc Association14) Деловая лексика: Individual Training Account, Industry Technical Agreement15) Образование: In Trouble Again, Information Technology Academy16) Сетевые технологии: Interactive Television Association17) Медицинская техника: Innovative Transmitting Apodization (технология компании Mindray, Китай)18) Яхтенный спорт: Италия (Обозначения на парусах)19) Общественная организация: Interior Taxpayers Association20) Должность: International Teaching Assistant21) Чат: I Totally Agree22) NYSE. Italy Fund, Inc.23) Программное обеспечение: Intelligent Text Analyser -
55 TIGER
1) Американизм: Technology Industry And Government For E Revolution2) Военный термин: Tactical Intelligence Gathering and Exploitation Relay, Tactical Interactive Ground Equipment, tactical inertial guidance and extended range, terrifically insensitive to ground effects radar, ракета повышенной дальности с ГСН на конечном участке траектории, тактическая информационная сеточная инфраструктура (Tactical Information Grid Infrastructure)3) Метеорология: Topologically Integrated Geographic Encoding And Reference4) Юридический термин: Tactical Intervention Guided Emergency Response5) Ветеринария: Tailored Interactive Guidance on Employment Rights (resource of the Department of Trade and Industry)6) Сокращение: Terrifically Insensitive to Ground Effect Radar, Topologically Integrated Geographic Encoding and Referencing (population database)7) Физиология: Transplantation Is A Gift Everyone Receives8) Вычислительная техника: testability insertion guidance expert system9) Транспорт: Topological Integrated Geographic Encoding & Referencing10) Деловая лексика: Team Integrated Getting Excellent Results, The Infrastructure Growth Economic Reforms11) Образование: Information Governance Education Recognition12) Океанография: Topographically Integrated Geographic Encoding And Referencing, Topologically Integrated Geographic Encoding And Referencing13) НАСА: Trans Iron Galactic Element Recorder -
56 tiger
1) Американизм: Technology Industry And Government For E Revolution2) Военный термин: Tactical Intelligence Gathering and Exploitation Relay, Tactical Interactive Ground Equipment, tactical inertial guidance and extended range, terrifically insensitive to ground effects radar, ракета повышенной дальности с ГСН на конечном участке траектории, тактическая информационная сеточная инфраструктура (Tactical Information Grid Infrastructure)3) Метеорология: Topologically Integrated Geographic Encoding And Reference4) Юридический термин: Tactical Intervention Guided Emergency Response5) Ветеринария: Tailored Interactive Guidance on Employment Rights (resource of the Department of Trade and Industry)6) Сокращение: Terrifically Insensitive to Ground Effect Radar, Topologically Integrated Geographic Encoding and Referencing (population database)7) Физиология: Transplantation Is A Gift Everyone Receives8) Вычислительная техника: testability insertion guidance expert system9) Транспорт: Topological Integrated Geographic Encoding & Referencing10) Деловая лексика: Team Integrated Getting Excellent Results, The Infrastructure Growth Economic Reforms11) Образование: Information Governance Education Recognition12) Океанография: Topographically Integrated Geographic Encoding And Referencing, Topologically Integrated Geographic Encoding And Referencing13) НАСА: Trans Iron Galactic Element Recorder -
57 Jenkins, Charles Francis
[br]b. 1867 USAd. 1934 USA[br]American pioneer of motion pictures and television.[br]During the early years of the motion picture industry, Jenkins made many innovations, including the development in 1894 of his own projector, the "Phantoscope", which was widely used for a number of years. In the same year he also suggested the possibility of electrically transmitting pictures over a distance, an interest that led to a lifetime of experimentation. As a result of his engineering contributions to the practical realization of moving pictures, in 1915 the National Motion Picture Board of Trade asked him to chair a committee charged with establishing technical standards for the industry. This in turn led to his proposing the creation of a professional society for those engineers in the industry, and the following year the Society of Motion Picture Engineers (later to become the Society of Motion Picture and Television Engineers) was formed, with Jenkins as its first President. Soon after this he began experiments with mechanical television, using both the Nipkow hole-spiral disc and a low-definition system of his own, based on rotating bevelled glass discs (his so-called "prismatic rings") and alkali-metal photocells. In the 1920s he gave many demonstrations of mechanical television, including a cable transmission of a crude silhouette of President Harding from Washington, DC, to Philadelphia in 1923 and a radio broadcast from Washington in 1928. The following year he formed the Jenkins Television Company to make television transmitters and receivers, but it soon went into debt and was acquired by the de Forest Company, from whom RCA later purchased the patents.[br]Principal Honours and DistinctionsFirst President, Society of Motion Picture Engineers 1916.Bibliography1923, "Radio photographs, radio movies and radio vision", Transactions of the Society of Motion Picture Engineers 16:78.1923, "Recent progress in the transmission of motion pictures by radio", Transactions ofthe Society of Motion Picture Engineers 17:81.1925, "Radio movies", Transactions of the Society of Motion Picture Engineers 21:7. 1930, "Television systems", Journal of the Society of Motion Picture Engineers 15:445. 1925. Vision by Radio.Further ReadingJ.H.Udelson, 1982, The Great Television Race: A History of the American Television Industry, 1925–41: University of Alabama Press.R.W.Hubbell, 1946, 4,000 Years of Television, London: G.Harrap \& Sons.1926. "The Jenkins system", Wireless World 18: 642 (contains a specific account of Jenkins's work).KFBiographical history of technology > Jenkins, Charles Francis
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58 Alexanderson, Ernst Frederik Werner
[br]b. 25 January 1878 Uppsala, Swedend. ? May 1975 Schenectady, New York, USA[br]Swedish-American electrical engineer and prolific radio and television inventor responsible for developing a high-frequency alternator for generating radio waves.[br]After education in Sweden at the High School and University of Lund and the Royal Institution of Technology in Stockholm, Alexanderson took a postgraduate course at the Berlin-Charlottenburg Engineering College. In 1901 he began work for the Swedish C \& C Electric Company, joining the General Electric Company, Schenectady, New York, the following year. There, in 1906, together with Fessenden, he developed a series of high-power, high-frequency alternators, which had a dramatic effect on radio communications and resulted in the first real radio broadcast. His early interest in television led to working demonstrations in his own home in 1925 and at the General Electric laboratories in 1927, and to the first public demonstration of large-screen (7 ft (2.13 m) diagonal) projection TV in 1930. Another invention of significance was the "amplidyne", a sensitive manufacturing-control system subsequently used during the Second World War for controlling anti-aircraft guns. He also contributed to developments in electric propulsion and radio aerials.He retired from General Electric in 1948, but continued television research as a consultant for the Radio Corporation of America (RCA), filing his 321st patent in 1955.[br]Principal Honours and DistinctionsInstitution of Radio Engineers Medal of Honour 1919. President, IERE 1921. Edison Medal 1944.BibliographyPublications relating to his work in the early days of radio include: "Magnetic properties of iron at frequencies up to 200,000 cycles", Transactions of the American Institute of Electrical Engineers (1911) 30: 2,443."Transatlantic radio communication", Transactions of the American Institute of ElectricalEngineers (1919) 38:1,269.The amplidyne is described in E.Alexanderson, M.Edwards and K.Boura, 1940, "Dynamo-electric amplifier for power control", Transactions of the AmericanInstitution of Electrical Engineers 59:937.Further ReadingE.Hawkes, 1927, Pioneers of Wireless, Methuen (provides an account of Alexanderson's work on radio).J.H.Udelson, 1982, The Great Television Race: A History of the American Television Industry 1925–1941, University of Alabama Press (provides further details of his contribution to the development of television).KFBiographical history of technology > Alexanderson, Ernst Frederik Werner
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59 Burks, Arthur Walter
SUBJECT AREA: Electronics and information technology[br]b. 13 October 1915 Duluth, Minnesota, USA[br]American engineer involved in the development of the ENIAC and Whirlwind computers.[br]After obtaining his AB degree from De Pere University, Wisconsin (1937), and his AM and PhD from the University of Michigan (1938 and 1941, respectively), Burks carried out research at the Moore School of Engineering, University of Pennsylvania, during the Second World War, and at the same time taught philosophy in another department. There, with Herman Goldstine, he was involved in the construction of ENIAC (the Electronic Numerical Integrator and Computer).In 1946 he took a post as Assistant Professor of Engineering at Michigan University, and subsequently became Associate Professor (1948) and Full Professor (1954). Between 1946 and 1948 he was also associated with the computer activities of John von Neumann at the Institute of Advanced Studies, Princeton, and was involved in the development of the Whirlwind I computer (the first stored-program computer) by Jay Forrester at the Massachusetts Institute of Technology. From 1948 until 1954 he was a consultant for the Burroughs Corporation and also contributed to the Oak Ridge computer ORACLE. He was Chairman of the Michigan University Department of Communications Science in 1967–71 and at various times was Visiting Professor at Harvard University and the universities of Illinois and Stanford. In 1975 he became Editor of the Journal of Computer and System Sciences.[br]Bibliography1946. "Super electronic computing machine", Electronics Industry 62.1947. "Electronic computing circuits of the ENIAC", Proceedings of the Institute of Radio Engineers 35:756.1980, "From ENIAC to the stored program computer. Two revolutions in computing", in N.Metropolis, J.Hewlett \& G.-C.Rota (eds), A History of Computing in the 20th Century, London: Academic Press.Further ReadingJ.W.Corlada, 1987, Historical Dictionary of Data Processing (provides further details of Burk's career).KF -
60 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
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