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1 industrial temperature range
Англо-русский толковый словарь терминов и сокращений по ВТ, Интернету и программированию. > industrial temperature range
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2 industrial temperature
= industrial temperature range; = INDдля оборудования (полупроводниковых приборов, устройств и машин) - диапазон рабочих температур от минус 40°C до 105°Cсм. тж. temperature rangeАнгло-русский толковый словарь терминов и сокращений по ВТ, Интернету и программированию. > industrial temperature
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3 temperature range
Англо-русский толковый словарь терминов и сокращений по ВТ, Интернету и программированию. > temperature range
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4 CTR
1) Компьютерная техника: carrier and timing recovery2) Военный термин: certified test requirements, consolidated training request, controlled thermonuclear reaction, cooperative target recognition3) Техника: Collective Television Reception, carrier telegraph receiver, cassette tape recorder, certified test record, clean thermonuclear reactor, collector transition region, communications technician, collection, control character, control key, control zone, controlled thermonuclear research, ЗВР (Costs, Time, Resources - Затраты, Время, Ресурсы)4) Религия: Choose To Repent, Corrupt The Righteous5) Железнодорожный термин: Clinton Terminal Railroad Company6) Бухгалтерия: Cheque This Record, Choose The Right7) Биржевой термин: Currency Transaction Report8) Оптика: cloud-top radiometer, current transfer ratio9) Сокращение: Close Target Recce, Co-operative Threat Reduction, Cooperative Threat Reduction, contour, cutter10) Физиология: Carpal Tunnel Release11) Вычислительная техника: core-transistor register, Common Technical Regulations (Europa), (columbia university) Center for Telecommunications Research (organization, USA)13) Онкология: (complete tumour regression) полная регрессия опухоли14) Транспорт: Civil Tilt Rotor, Commuter Trip Reduction15) Реклама: click/through ratio16) Налоги: corporate tax rate17) Глоссарий компании Сахалин Энерджи: Cost - Time - Resource (a form), Cost, Time and Resources (contractor), Cost, Time, Resources (sheet)18) Менеджмент: central tender board, sheet cost, time19) Образование: Cowboys Take Risks20) Полимеры: critical temperature range21) Контроль качества: Crack Thickness Ratio22) Сахалин Р: Cost-Time-Resource23) Макаров: controlled thermonuclear reactor24) Нефть и газ: ведомость СВР (стоимость время ресурсы)25) Высокочастотная электроника: common technical regulations26) Должность: Certified Tarot Reader27) NYSE. Cabot Industrial Trust -
5 ctr
1) Компьютерная техника: carrier and timing recovery2) Военный термин: certified test requirements, consolidated training request, controlled thermonuclear reaction, cooperative target recognition3) Техника: Collective Television Reception, carrier telegraph receiver, cassette tape recorder, certified test record, clean thermonuclear reactor, collector transition region, communications technician, collection, control character, control key, control zone, controlled thermonuclear research, ЗВР (Costs, Time, Resources - Затраты, Время, Ресурсы)4) Религия: Choose To Repent, Corrupt The Righteous5) Железнодорожный термин: Clinton Terminal Railroad Company6) Бухгалтерия: Cheque This Record, Choose The Right7) Биржевой термин: Currency Transaction Report8) Оптика: cloud-top radiometer, current transfer ratio9) Сокращение: Close Target Recce, Co-operative Threat Reduction, Cooperative Threat Reduction, contour, cutter10) Физиология: Carpal Tunnel Release11) Вычислительная техника: core-transistor register, Common Technical Regulations (Europa), (columbia university) Center for Telecommunications Research (organization, USA)13) Онкология: (complete tumour regression) полная регрессия опухоли14) Транспорт: Civil Tilt Rotor, Commuter Trip Reduction15) Реклама: click/through ratio16) Налоги: corporate tax rate17) Глоссарий компании Сахалин Энерджи: Cost - Time - Resource (a form), Cost, Time and Resources (contractor), Cost, Time, Resources (sheet)18) Менеджмент: central tender board, sheet cost, time19) Образование: Cowboys Take Risks20) Полимеры: critical temperature range21) Контроль качества: Crack Thickness Ratio22) Сахалин Р: Cost-Time-Resource23) Макаров: controlled thermonuclear reactor24) Нефть и газ: ведомость СВР (стоимость время ресурсы)25) Высокочастотная электроника: common technical regulations26) Должность: Certified Tarot Reader27) NYSE. Cabot Industrial Trust -
6 control
1) управление; регулирование; регулировка || управлять; регулировать; задавать2) контроль; проверка || контролировать; проверять3) орган управления; орган регулировки, регулятор; орган настройки4) устройство управления; блок управления6) рукоятка или рычаг управления7) профилактические мероприятия, надзор•"operation is under control" — всё предусмотрено для нормальной работы;to gain control — вчт. получать управление:to go out of control — становиться неуправляемым;to operate ( to handle) the flight controls — оперировать органами управления полётом;to pass control — вчт. передавать управление;to return control — вчт. возвращать управление;to take over control — брать управление на себя;to transfer control — вчт. передавать управление-
cascaded control-
cathode control-
CO/O2 combustion control-
communications control-
computer control-
contactor-type control-
continuous-path control-
course gage control-
current-mode control-
dispatcher control-
focusing control-
holding control-
horizontal-frequency control-
hue range control-
long-distance control-
managerial control-
microprogramming control-
numerical program control-
on-off action control-
position-based control-
slide control-
step-by-step control-
time-pattern control -
7 control
1) контроль
2) контрольный
3) обоснование
4) обосновывать
5) оперативный
6) регулировать
7) регулировочный орган
8) совладать
9) управление
10) управляемость
11) управляющий
12) штурвальный
13) регулировка
14) управлять
15) проверять
16) регулирование
17) инструкция
18) исполнительный
19) контролировать
20) проверка
21) проверочный
22) регулирующий
– absence of control
– air traffic control
– air-traffic control
– analysis is in control
– anticipatory control
– arc control device
– association control
– attenuation control
– attitude control
– automatic control
– autonomous control
– autothrottle control
– bang-bang control
– be in control
– be out of control
– bin control gate
– brightness control
– bucket tip control
– bulge control
– centralized control
– closed-cycle control
– complete control
– context control
– continuous control
– contrast control
– control accuracy
– control action
– control actuator
– control agent
– control air
– control algorithm
– control amplifier
– control and display
– control assembly
– control beam
– control bus
– control button
– control cabinet
– control cable
– control cam
– control center
– control channel
– control character
– control characteristic
– control circuit
– control code
– control column
– control combination
– control computer
– control crank
– control criterion
– control current
– control cylinder
– control data
– control desk
– control electrode
– control electronics
– control element
– control equipment
– control factor
– control flutter
– control force
– control function
– control gate
– control gear
– control graphitization
– control instruction
– control jet
– control joint
– control key
– control knob
– control lag
– control lever
– control limit
– control linkages
– control links
– control loop
– control magnet
– control means
– control mode
– control module
– control motor
– control of airplane
– control office
– control operation
– control panel
– control pedal
– control position
– control problem
– control pulse
– control range
– control reactor
– control register
– control relay
– control response
– control room
– control shaft
– control spin
– control statement
– control stick
– control surface
– control survey
– control switch
– control temperature
– control theory
– control track
– control transistor
– control unit
– control vector
– control voltage
– control weeds
– control winding
– control wiring
– corrosion control
– dash control
– data control
– derivative control
– digital control
– direct control
– distance control
– disturbance-compensating control
– dive-recovery control
– duplicate control
– dust control
– ease of control
– elevator control
– emergency control
– end-point control
– engine control
– environment control
– error control
– error-closing control
– exclusive control
– extension of control
– feed control
– feed-back control
– feedback control
– filament control
– fine control
– fire control
– flight control
– floating control
– flood control
– flow-rate control
– focus control
– frequency control
– front-panel control
– gain control
– ganged control
– geodetic control
– go out of control
– ground control
– gyrorudder control
– hand control
– headwater control
– height control
– hierarchical control
– in-process control
– independent control
– indirect control
– industrial control
– input-output control
– integral control
– interacting control
– intermittent control
– inventory control
– jet control
– job control language
– layout of control
– leather control
– level control
– linearity control
– load control
– local control
– lose control
– loss of control
– manual control
– master control
– meduim-access control
– meduim-access control
– mission control
– multicircuit control
– noise control
– numerical control
– off-line control
– on-line control
– on-off control
– open-loop control
– operating control
– optimal control
– optimization control
– out of control
– pass control
– path control
– path of control
– pedal control
– pest control
– phase control
– phase-lock control
– piano-key control
– plan control
– point of control
– point-to-point control
– power-assisted control
– product control
– program control
– programmed control
– proportional control
– proportional-plus-floating control
– push-button control
– pushbutton control
– quality control
– radio control
– ramp control
– reaction control
– recovery control
– regain control
– register control
– remotability of control
– remote control
– roll control
– rudder control
– run-off control
– sampled-data control
– segregate control
– selectivity control
– self-acting control
– sensitivity control
– servo control
– slide control
– slope control
– statistical control
– steering control
– supervisory control
– take control
– technical control
– temperature control
– throttle control
– tone control
– touch control
– traffic control
– tuning control
– vertical control
– vibration control
– voice-activated control
– volume control
aerodynamic control surface — руль управления аэродинамический
automatic control equipment — аппаратура автоматического управления
automatic frequency control — частотная АПЧ, автоматическая настройка частоты
automatic gain control — <tech.> регулировка усиления автоматическая
automatic remote control — <comput.> телеавтоматика
automatic voltage control — регулирование напряжения автоматическое
bang-bang control system — <comput.> система управления релейная
cancelling control button — < railways> кнопка отмены
centralized traffic control — < railways> централизация
conditional transfer of control — условная передача управления
control aisle of a substation — коридор управления подстанции
control in pitch of airplane — продольное управление самолетом
control point adjustment — настройка точки регулирования, <engin.> задатчик
control tower service — <aeron.> служба диспетчерская
coordinated phosphate control — коррекционная обработка воды
differential control method — дифференцированный метод контроля
dispatcher's supervisory control — телеуправление диспетчерское
fire control computer — счетно-решающее устройство для управления артиллерийским огнем
fire control director — прибор управления артиллерийским огнем
floating control mode — <comput.> способ регулирования астатический
intermittent gain control — < radio> регулировка усиления временная
lateral control of airplane — поперечное управление самолетом
microprocessor control system — микропроцессорная система управления
pressure control instrument — <tech.> маностат
proportional control factor — <comput.> коэффициент пропорционального регулирования
range finder control — <geod.> метод дальномерно-базисный
reactor control system — <engin.> система управления и защиты
remote control interlocking — < railways> телецентрализация, централизация дистанционная
river control structure — <geol.> сооружение выправительное
servo control unit — <engin.> гидроусилитель
spray-type superheat control — впрысковое регулирование перегрева
supervisory control system — <comput.> автодиспетчер
thermostatic temperature control — ключевое термостатирование
volume range control — регулирование динамического диапазона
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8 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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9 Le Chatelier, Henri Louis
SUBJECT AREA: Metallurgy[br]b. 8 November 1850 Paris, Franced. 17 September 1926 Miribel-les-Echelle, France[br]French inventor of the rhodium—platinum thermocouple and the first practical optical pyrometer, and pioneer of physical metallurgy.[br]The son of a distinguished engineer, Le Chatelier entered the Ecole Polytechnique in 1869: after graduating in the Faculty of Mines, he was appointed Professor at the Ecole Supérieure des Mines in 1877. After assisting Deville with the purification of bauxite in unsuccessful attempts to obtain aluminium in useful quantities, Le Chatelier's work covered a wide range of topics and he gave much attention to the driving forces of chemical reactions. Between 1879 and 1882 he studied the mechanisms of explosions in mines, and his doctorate in 1882 was concerned with the chemistry and properties of hydraulic cements. The dehydration of such materials was studied by thermal analysis and dilatometry. Accurate temperature measurement was crucial and his work on the stability of thermocouples, begun in 1886, soon established the superiority of rhodium-platinum alloys for high-temperature measurement. The most stable combination, pure platinum coupled with a 10 per cent rhodium platinum positive limb, became known as Le Chatelier couple and was in general use throughout the industrial world until c. 1922. For applications where thermocouples could not be used, Le Chatelier also developed the first practical optical pyrometer. From hydraulic cements he moved on to refractory and other ceramic materials which were also studied by thermal analysis and dilatometry. By 1888 he was systematically applying such techniques to metals and alloys. Le Chatelier, together with Osmond, Worth, Genet and Charpy, was a leading member of that group of French investigators who established the new science of physical metallurgy between 1888 and 1900. Le Chatelier was determining the recalescence points in steels in 1888 and was among the first to study intermetallic compounds in a systematic manner. To facilitate such work he introduced the inverted microscope, upon which metallographers still depend for the routine examination of polished and etched metallurgical specimens under incident light. The principle of mobile equilibrium, developed independently by Le Chatelier in 1885 and F.Braun in 1886, stated that if one parameter in an equilibrium situation changed, the equilibrium point of the system would move in a direction which tended to reduce the effect of this change. This provided a useful qualitative working tool for the experimentalists, and was soon used with great effect by Haber in his work on the synthesis of ammonia.[br]Principal Honours and DistinctionsGrand Officier de la Légion d'honneur. Honorary Member of the Institute of Metals 1912. Iron and Steel Institute Bessemer Medal.Further ReadingF.Le Chatelier, 1969, Henri Le Chatelier.C.K.Burgess and H.L.Le Chatelier, The Measurement of High Temperature.ASDBiographical history of technology > Le Chatelier, Henri Louis
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10 controller
1) управляющее устройство, устройство управления2) контроллер, командоаппарат5) контрольно-измерительный прибор; контрольно-измерительное устройство•- AC controller
- adaptive controller
- adaptive variable structure controller
- adjustable controller
- adjustable-speed controller
- air-operated controller
- all-purpose controller
- analog-to-frequency controller
- area controller
- arm controller
- astatic controller
- automatic controller
- auxiliary controller
- axis controller
- behavior-based controller
- bubble memory controller
- bus-based controller
- camshaft controller
- cascade controller
- cell controller
- cell management controller
- center controller
- centering controller
- central controller
- central programmable controller
- CNC controller
- CNC/PC-backed controller
- combination controller
- communications capable controller
- compound controller
- computer-torque controller
- conductivity controller
- constant-pressure flow controller
- continuous controller
- continuous-action controller
- conventional CNC controller
- conventional numerical controller
- copy controller
- copying controller
- correlated controller
- cycle controller
- digital controller
- digital loop controller
- direct-acting controller
- discontinuous-action controller
- discrete action controller
- disk controller
- displacement controller
- distribution controller
- DNC controller
- draft controller
- dressing controller
- drum logic controller
- edge tracking controller
- elastic feedback controller
- electric contact controller
- electric controller
- electric hydraulic controller
- electromechanical controller
- electronic controller
- electropneumatic controller
- equipment level controller
- extremal controller
- factory automation controller
- feed controller
- feedback controller
- field controller
- finite-dimensional controller
- fixed-gain controller
- flexible automation controller
- flexible controller
- floating controller
- flow controller
- FMS cell controller
- FMS line controller
- follow-up controller
- freely programmable controller
- frequency controller
- gain controller
- gemdrive axis controller
- hardware controller
- hydraulic controller
- I/O controller
- IBM compatible controller
- inching controller
- indicating controller
- indirect action controller
- industrial sequence controller
- infinite-dimensional controller
- input/output controller
- integral controller
- interfaceable controller
- intermittent controller
- LAN controller
- limiting controller
- linear controller
- low-point speed controller
- machine controller
- machine tool controller
- management controller
- manual controller
- MAP/cell controller
- master controller
- master programmable controller
- material handling controller
- mechanically operated controller
- microcomputer controller
- microprocessor controller
- microprocessor-driven machine controller
- minimum error controller
- model reference adaptive process controller
- motion controller
- motor controller
- multiaction controller
- multichannel controller
- multiinput controller
- multilevel controller
- multimachine-tool controller
- multiposition controller
- multispeed controller
- multistep controller
- narrow-band controller
- NC controller
- network controller
- neural net controller
- numerical controller
- on-off controller
- open system controller
- open-cycle controller
- optimal controller
- optimizing peak-holding controller
- oscillating controller
- output sampling controller
- PC-backed controller
- pedestal controller
- Petri net controller
- photoelectric controller
- PID controller
- pilot-operated controller
- plugboard controller
- pneumatic controller
- pneumatic-hydraulic controller
- positioning controller
- power controller
- pressure controller
- probe controller
- process controller
- process cycle controller
- production controller
- production management controller
- professional graphics controller
- program controller
- programmable controller
- programmable CRT controller
- programmable industrial controller
- programmable interface controller
- programmable logic controller
- proportional action controller
- proportional controller with disturbance-variable compensation
- proportional controller
- proportional position action controller
- proportional-plus-derivative action controller
- proportional-plus-integral action controller
- proportional-plus-integral-plus-derivative controller
- protocol controller
- pulse controller
- PWM controller
- ratio controller
- relay controller
- remote controller
- rigid feedback controller
- robot arm controller
- robot cell controller
- robot/workcenter controller
- rotary and tilt controller
- sampled-data controller
- sampling controller
- secondary controller
- self-acting controller
- self-actuated controller
- self-operated controller
- semiautomatic controller
- sequential controller
- servo controller
- shift controller
- single-duty controller
- single-variable controller
- small sequential controller
- software controller
- software-based controller
- speed controller
- static controller
- stepping controller
- strip-width controller
- supervisory controller
- system's central controller
- tape controller
- teach controller
- teaching controller
- temperature controller
- thermostatic controller
- tool life controller
- torque controller
- turning controller
- two-level controller
- two-position controller
- two-speed controller
- two-stage controller
- two-step controller
- valve controller
- variable feedback controller
- vise controller
- volume controller
- wide-band controller
- wide-range controller
- workstation controllerEnglish-Russian dictionary of mechanical engineering and automation > controller
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11 control
1) управление; регулирование || управлять; регулировать2) контроль; проверка || контролировать; проверять3) регулировка, настройка4) орган управления; регулировочный орган6) руководство; власть•to be out of control — метал. не попадать в анализ
to regain control — восстанавливать [получать] управление
to take control — брать управление на себя; брать руководство в свои руки
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12 Introduction
Portugal is a small Western European nation with a large, distinctive past replete with both triumph and tragedy. One of the continent's oldest nation-states, Portugal has frontiers that are essentially unchanged since the late 14th century. The country's unique character and 850-year history as an independent state present several curious paradoxes. As of 1974, when much of the remainder of the Portuguese overseas empire was decolonized, Portuguese society appeared to be the most ethnically homogeneous of the two Iberian states and of much of Europe. Yet, Portuguese society had received, over the course of 2,000 years, infusions of other ethnic groups in invasions and immigration: Phoenicians, Greeks, Celts, Romans, Suevi, Visigoths, Muslims (Arab and Berber), Jews, Italians, Flemings, Burgundian French, black Africans, and Asians. Indeed, Portugal has been a crossroads, despite its relative isolation in the western corner of the Iberian Peninsula, between the West and North Africa, Tropical Africa, and Asia and America. Since 1974, Portugal's society has become less homogeneous, as there has been significant immigration of former subjects from its erstwhile overseas empire.Other paradoxes should be noted as well. Although Portugal is sometimes confused with Spain or things Spanish, its very national independence and national culture depend on being different from Spain and Spaniards. Today, Portugal's independence may be taken for granted. Since 1140, except for 1580-1640 when it was ruled by Philippine Spain, Portugal has been a sovereign state. Nevertheless, a recurring theme of the nation's history is cycles of anxiety and despair that its freedom as a nation is at risk. There is a paradox, too, about Portugal's overseas empire(s), which lasted half a millennium (1415-1975): after 1822, when Brazil achieved independence from Portugal, most of the Portuguese who emigrated overseas never set foot in their overseas empire, but preferred to immigrate to Brazil or to other countries in North or South America or Europe, where established Portuguese overseas communities existed.Portugal was a world power during the period 1415-1550, the era of the Discoveries, expansion, and early empire, and since then the Portuguese have experienced periods of decline, decadence, and rejuvenation. Despite the fact that Portugal slipped to the rank of a third- or fourth-rate power after 1580, it and its people can claim rightfully an unusual number of "firsts" or distinctions that assure their place both in world and Western history. These distinctions should be kept in mind while acknowledging that, for more than 400 years, Portugal has generally lagged behind the rest of Western Europe, although not Southern Europe, in social and economic developments and has remained behind even its only neighbor and sometime nemesis, Spain.Portugal's pioneering role in the Discoveries and exploration era of the 15th and 16th centuries is well known. Often noted, too, is the Portuguese role in the art and science of maritime navigation through the efforts of early navigators, mapmakers, seamen, and fishermen. What are often forgotten are the country's slender base of resources, its small population largely of rural peasants, and, until recently, its occupation of only 16 percent of the Iberian Peninsula. As of 1139—10, when Portugal emerged first as an independent monarchy, and eventually a sovereign nation-state, England and France had not achieved this status. The Portuguese were the first in the Iberian Peninsula to expel the Muslim invaders from their portion of the peninsula, achieving this by 1250, more than 200 years before Castile managed to do the same (1492).Other distinctions may be noted. Portugal conquered the first overseas empire beyond the Mediterranean in the early modern era and established the first plantation system based on slave labor. Portugal's empire was the first to be colonized and the last to be decolonized in the 20th century. With so much of its scattered, seaborne empire dependent upon the safety and seaworthiness of shipping, Portugal was a pioneer in initiating marine insurance, a practice that is taken for granted today. During the time of Pombaline Portugal (1750-77), Portugal was the first state to organize and hold an industrial trade fair. In distinctive political and governmental developments, Portugal's record is more mixed, and this fact suggests that maintaining a government with a functioning rule of law and a pluralist, representative democracy has not been an easy matter in a country that for so long has been one of the poorest and least educated in the West. Portugal's First Republic (1910-26), only the third republic in a largely monarchist Europe (after France and Switzerland), was Western Europe's most unstable parliamentary system in the 20th century. Finally, the authoritarian Estado Novo or "New State" (1926-74) was the longest surviving authoritarian system in modern Western Europe. When Portugal departed from its overseas empire in 1974-75, the descendants, in effect, of Prince Henry the Navigator were leaving the West's oldest empire.Portugal's individuality is based mainly on its long history of distinc-tiveness, its intense determination to use any means — alliance, diplomacy, defense, trade, or empire—to be a sovereign state, independent of Spain, and on its national pride in the Portuguese language. Another master factor in Portuguese affairs deserves mention. The country's politics and government have been influenced not only by intellectual currents from the Atlantic but also through Spain from Europe, which brought new political ideas and institutions and novel technologies. Given the weight of empire in Portugal's past, it is not surprising that public affairs have been hostage to a degree to what happened in her overseas empire. Most important have been domestic responses to imperial affairs during both imperial and internal crises since 1415, which have continued to the mid-1970s and beyond. One of the most important themes of Portuguese history, and one oddly neglected by not a few histories, is that every major political crisis and fundamental change in the system—in other words, revolution—since 1415 has been intimately connected with a related imperial crisis. The respective dates of these historical crises are: 1437, 1495, 1578-80, 1640, 1820-22, 1890, 1910, 1926-30, 1961, and 1974. The reader will find greater detail on each crisis in historical context in the history section of this introduction and in relevant entries.LAND AND PEOPLEThe Republic of Portugal is located on the western edge of the Iberian Peninsula. A major geographical dividing line is the Tagus River: Portugal north of it has an Atlantic orientation; the country to the south of it has a Mediterranean orientation. There is little physical evidence that Portugal is clearly geographically distinct from Spain, and there is no major natural barrier between the two countries along more than 1,214 kilometers (755 miles) of the Luso-Spanish frontier. In climate, Portugal has a number of microclimates similar to the microclimates of Galicia, Estremadura, and Andalusia in neighboring Spain. North of the Tagus, in general, there is an Atlantic-type climate with higher rainfall, cold winters, and some snow in the mountainous areas. South of the Tagus is a more Mediterranean climate, with hot, dry, often rainless summers and cool, wet winters. Lisbon, the capital, which has a fifth of the country's population living in its region, has an average annual mean temperature about 16° C (60° F).For a small country with an area of 92,345 square kilometers (35,580 square miles, including the Atlantic archipelagos of the Azores and the Madeiras), which is about the size of the state of Indiana in the United States, Portugal has a remarkable diversity of regional topography and scenery. In some respects, Portugal resembles an island within the peninsula, embodying a unique fusion of European and non-European cultures, akin to Spain yet apart. Its geography is a study in contrasts, from the flat, sandy coastal plain, in some places unusually wide for Europe, to the mountainous Beira districts or provinces north of the Tagus, to the snow-capped mountain range of the Estrela, with its unique ski area, to the rocky, barren, remote Trás-os-Montes district bordering Spain. There are extensive forests in central and northern Portugal that contrast with the flat, almost Kansas-like plains of the wheat belt in the Alentejo district. There is also the unique Algarve district, isolated somewhat from the Alentejo district by a mountain range, with a microclimate, topography, and vegetation that resemble closely those of North Africa.Although Portugal is small, just 563 kilometers (337 miles) long and from 129 to 209 kilometers (80 to 125 miles) wide, it is strategically located on transportation and communication routes between Europe and North Africa, and the Americas and Europe. Geographical location is one key to the long history of Portugal's three overseas empires, which stretched once from Morocco to the Moluccas and from lonely Sagres at Cape St. Vincent to Rio de Janeiro, Brazil. It is essential to emphasize the identity of its neighbors: on the north and east Portugal is bounded by Spain, its only neighbor, and by the Atlantic Ocean on the south and west. Portugal is the westernmost country of Western Europe, and its shape resembles a face, with Lisbon below the nose, staring into theAtlantic. No part of Portugal touches the Mediterranean, and its Atlantic orientation has been a response in part to turning its back on Castile and Léon (later Spain) and exploring, traveling, and trading or working in lands beyond the peninsula. Portugal was the pioneering nation in the Atlantic-born European discoveries during the Renaissance, and its diplomatic and trade relations have been dominated by countries that have been Atlantic powers as well: Spain; England (Britain since 1707); France; Brazil, once its greatest colony; and the United States.Today Portugal and its Atlantic islands have a population of roughly 10 million people. While ethnic homogeneity has been characteristic of it in recent history, Portugal's population over the centuries has seen an infusion of non-Portuguese ethnic groups from various parts of Europe, the Middle East, and Africa. Between 1500 and 1800, a significant population of black Africans, brought in as slaves, was absorbed in the population. And since 1950, a population of Cape Verdeans, who worked in menial labor, has resided in Portugal. With the influx of African, Goan, and Timorese refugees and exiles from the empire—as many as three quarters of a million retornados ("returned ones" or immigrants from the former empire) entered Portugal in 1974 and 1975—there has been greater ethnic diversity in the Portuguese population. In 2002, there were 239,113 immigrants legally residing in Portugal: 108,132 from Africa; 24,806 from Brazil; 15,906 from Britain; 14,617 from Spain; and 11,877 from Germany. In addition, about 200,000 immigrants are living in Portugal from eastern Europe, mainly from Ukraine. The growth of Portugal's population is reflected in the following statistics:1527 1,200,000 (estimate only)1768 2,400,000 (estimate only)1864 4,287,000 first census1890 5,049,7001900 5,423,0001911 5,960,0001930 6,826,0001940 7,185,1431950 8,510,0001960 8,889,0001970 8,668,000* note decrease1980 9,833,0001991 9,862,5401996 9,934,1002006 10,642,8362010 10,710,000 (estimated) -
13 oil
1. нефть || нефтяной2. масло ( растительное или минеральное) || масляный3. жидкая смазка, смазочное масло || смазыватьoil struck at... — нефть встречена на глубине...
— hot oil— base oil— cut oil— dead oil— form oil— fuel oil— lean oil— live oil— load oil— lock oil— net oil— oil in— raw oil— rich oil— rock oil— seep oil— sour oil— tank oil— tar oil— wet oil
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нефть (все жидкие углеводороды, получаемые из скважин, и конденсаты, извлекаемые из природного газа)pipeline quality crude oil — нефть, соответствующая требованиям транспортирования по трубопроводу (упругость паров по Рейду в подвижном состоянии -100)
tanker specification crude oil — нефть, соответствующая требованиям транспортирования танкерами (упругость паров по Рейду в подвешенном состоянии -10)
to hold back oil in the reservoir — удерживать нефть в коллекторе;
— bad oil— base oil— cut oil— dead oil— dry oil— dump oil— fuel oil— hot oil— live oil— load oil— raw oil— rock oil— sour oil— tank oil— wet oil— wild oil
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1. нефть
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нефть (<<жидкие углеводороды, извлекаемые из природного газа) || нефтянойoil in bulk — 1) нефть наливом; нефтепродукты наливом 2) нефть в резервуаре;
oil in hole — нефть в стволе скважины;
oil in place — нефть в пласте; пластовая нефть; нефть, предположительно находящаяся в коллекторе;
oil in reserve — 1) нефть, заполняющая трубопроводы и резервуары 2) нефтепродукт, заполняющий систему заводских резервуаров и трубопроводов;
oil in sight — видимые запасы нефти;
oil in situ — нефть в пласте;
oil in storage — 1) нефть в трубопроводах 2) избыточная ( не отправленная потребителям) нефть на нефтебазах;
oil initially in place — первоначальные запасы нефти в коллекторе;
oil originally in reservoir — начальное содержание нефти в пласте;
to carry oil — содержать нефть;
to flood oil toward production well — вытеснять нефть ( водой) к добывающей скважине;
to hold back oil in the reservoir — удерживать нефть в коллекторе;
to make oil — добывать нефть;
to run the oil — 1) измерять количество нефти в промысловых резервуарах 2) перекачивать нефть из промысловых резервуаров по трубопроводу;
to skim off oil — собирать нефть, разлившуюся на поверхности воды;
to strike oil — обнаруживать месторождение нефти;
- oil of paraffinoil to surface — нефть, поступающая на поверхность;
- abandoned oil
- absorbent oil
- adsorbed oil
- absorption oil
- acid oil
- acid-refined oil
- acid-stage oil
- additive blended oil
- additive motor oil
- additive treated oil
- additive-type oil
- admiralty fuel oil
- aeroengine oil
- air filter oil
- aircraft oil
- airplane oil
- all-purpose engine oil
- alpha oil
- American paraffin oil
- Appalachian oil
- aqueous-soluble oil
- Arctic oil
- aromatic-base crude oil
- asphalt-base oil
- asphalt-free oil
- asphaltic road oil
- asphaltum oil
- automobile oil
- average-quality oil
- axle oil
- bad oil
- base oil
- batch oil
- Beaumont oil
- bentonite diesel oil
- benzolized oil
- benzyl mustard oil
- black oil
- blasting oil
- blended fuel oil
- blue oil
- bobbin oil
- bodied oil
- boiler oil
- branded oil
- break-in oil
- bright oil
- bubble point oil
- burner oil
- burning oil
- by-passed oil
- capacitor oil
- car oil
- carbon oil
- cargo oil
- catalytic gas oil
- circuit-breaker oil
- clay-filtered oil
- clean oil
- cleaning oil
- cleansing oil
- coal oil
- coastal oil
- coker gas oil
- cold-settled oil
- cold-test oil
- commercial oil
- compressor oil
- concrete form oil
- condensed oil
- condenser oil
- conventional oil
- cordage oil
- corrected oil
- crankcase oil
- crevice oil
- crude oil
- crude mineral oil
- crude petroleum fuel oil
- crude shale oil
- crystal oil
- cut oil
- cutter oil
- cutting oil
- cycle oil
- cycle gas oil
- cylinder oil
- dangerous oil
- dead oil
- debenzolized oil
- degassed oil
- denuded oil
- desalinized oil
- development oil
- dielectrical oil
- diesel oil
- diesel-fuel oil
- dispersed oil
- dissolved oil
- distillate oil
- distillate fuel oil
- domestic oil
- doped oil
- dry oil
- dual-purpose oil
- dump oil
- earth oil
- economically recoverable oil
- electrical switch oil
- emulsified crude oil
- emulsion oil
- engine oil
- enriched oil
- entrained oil
- equilibrium oil
- estimated original oil in place
- explosive oil
- extra-heavy crude oil
- first-quality oil
- fluid oil
- flush oil
- fluxing oil
- foam oil
- foot's oil
- foreign oil
- form oil
- fossil oil
- free oil
- fuel oil
- furnace oil
- gaged oil
- gas oil
- gas absorber oil
- gas and mud-cut oil
- gas-cut oil
- gas-cut load oil
- gear oil
- gearbox oil
- gearcase oil
- gelled oil
- graphite lubrication oil
- grease oil
- grease-spoiled oil
- green bloom oil
- green cast oil
- hard oil
- heating oil
- heavy oil
- heavy-cycle gas oil
- heavy-duty supplement oil
- heavy gas oil
- heavy lubricating oil
- heavy neutral oil
- high-gravity oil
- high-pour-point oil
- high-pour-test oil
- high-pressure oil
- high-temperature shale oil
- highly detergent oil
- highly refined oil
- highly resinous oil
- hot oil
- hybrid-base oil
- hydraulic oil
- hydraulic system oil
- hydrocarbon oils
- hydrofined oil
- hydrogen-deficient gas oil
- illuminating oil
- imported oil
- inactive oil
- incremental oil
- industrial white oil
- initial oil in place
- initial oil in reservoir
- in-place oil
- inspissated oil
- instrument oil
- insulating oil
- intermediate oil
- irreducible oil
- kerosene oil
- lake oil
- lamp oil
- lean oil
- lease oil
- light oil
- light crude oil
- light cycle gas oil
- light engine oil
- light fuel oil
- light gas oil
- light viscosity oil
- lightwood oil
- limestone oil
- live oil
- livered oil
- load oil
- lock oil
- long-time burning oil
- loom oil
- low-gravity oil
- low-viscosity oil
- lubricating oil
- machinery oil
- make-up oil
- marine oil
- marine engine oil
- merchantable oil
- middle oil
- Middle East oil
- migratory oil
- mineral oil
- mineral earth oil
- mineral seal oil
- miner's oil
- mixed asphaltic base oil
- mixed-base oil
- mother oil
- motor oil
- moveable oil
- mud oil
- mud-cut oil
- multigrade oil
- noncongealable oil
- nondrying oil
- opal oil
- naphthalene oil
- naphthene oil
- natural oil
- net oil
- net residual oil
- nonabsorbent oil
- nonfoaming oil
- nonrecoverable oil
- nonresinous oil
- nonsulfurous oil
- occluded oil
- offshore oil
- original oil in place
- original stock tank oil in place
- oxydized oil
- oxygenated oil
- pale oil
- paraffin-base oil
- paraffin-base crude oil
- paraffinic oil
- pattern oil
- penetrating oil
- petrolatum oil
- petroleum fuel oil
- petroleum gas oil
- pilot oil
- piped oil
- pipeline oil
- pipeline quality crude oil
- polybase oil
- power oil
- primary oil
- produced oil
- prospective oil
- pumping load oil
- pure oil
- range oil
- raw oil
- recirculating oil
- reclaimed lubricating oil
- recoverable oil
- recovered oil
- red oil
- reduced oil
- reduced fuel oil
- refined oil
- residual oil
- retained oil
- returning circulation oil
- rich oil
- road oil
- rock oil
- roily oil
- rustproof oil
- saturated oil
- scavenge oil
- scrubbing oil
- secondary oil
- seep oil
- selective solvent-extracted oil
- selective solvent-refined oil
- separator oil
- service DG oil
- service DM oil
- service DS oil
- service ML oil
- service MM oil
- service MS oil
- shafting oil
- shale oil
- Sherwood oil
- short oil
- shrinked oil
- skunk oil
- slightly gas-cut oil
- sludge oil
- slurry oil
- slush oil
- slushing oil
- solar oil
- solid oil
- solidified oil
- soluble oil
- sorbed oil
- sour oil
- spindle oil
- steam-distillable oil
- steam-refined oil
- stock-tank oil
- stock-tank oil in place
- stoker's oil
- stone oil
- stove oil
- straight mineral oil
- straw oil
- stripped oil
- stripping oil
- subzero oil
- sulfonated oil
- sulfur-bearing oil
- sulfurous oil
- summer oil
- surplus oil
- sweat oil
- sweet oil
- switch oil
- tank oil
- tanker specification crude oil
- tar oil
- tarry oil
- tertiary oil
- thin oil
- thinned oil
- topped oil
- torch oil
- tractor oil
- transformer oil
- trapped oil
- trimming oil
- trolly oil
- turkey-red oil
- undiluted engine oil
- univis oil
- unrecovered oil
- unrefinable oil
- unrefinable crude oil
- unstripped oil
- untreated oil
- vaporizing oil
- vulcan oil
- washed blue oil
- waste oil
- water-cut oil
- watered oil
- watery oil
- wax oil
- wet oil
- white oil
- wild oil
- winter oil
- wirerope oil* * *• нефть• нефтяной -
14 zone
nounZone, die[time] zone — Zeitzone, die
* * *[zəun]1) (an area or region, usually of a country, town etc, especially one marked off for a special purpose: a no-parking zone; a traffic-free zone.) die Zone2) (any of the five bands into which the earth's surface is divided according to temperature: The tropical zone is the area between the Tropic of Capricorn and the Tropic of Cancer.) die Zone* * *[zəʊn, AM zoʊn]I. nearthquake \zone Erdbebenregion frelegation \zone SPORT abstiegsgefährdete Rängetime \zone Zeitzone fthe central time \zone Standardzeit für die Mittelstaaten der USA und von Teilen Zentralkanadaswheat \zone Weizengürtel merogenous \zone ANAT erogene Zonetemperate \zone GEOG, METEO gemäßigte Zone2. (restricted area)danger \zone Gefahrenzone fno-parking \zone Parkverbotszone fbusiness [or commercial] \zone Geschäftszentrum ntindustrial/residential \zone Industrie-/Wohngebiet ntII. vt ADMIN, LAWto \zone an area/ \zone land ein Gebiet/Land in [Nutzungs]zonen aufteilenthis area has been \zoned as agricultural land dieses Gebiet ist als Agrarland ausgewiesen worden* * *['zəʊn] Zone f; (US = postal zone) Post(zustell)bezirk mto be in the zone — in einer Sache völlig aufgehen; athlete in Topform sein
2. vt1) town, area in Zonen aufteilen2)* * *zone [zəʊn]A sb) Gebietsstreifen m, (Weizen- etc) Gürtel mzone of occupation Besatzungszone;zone of silence Schweigezone;zone time Zonenzeit fd) (Straßenbahn- etc) Teilstrecke f4. obs oder poet Gürtel mB v/t in Zonen aufteilen, verzonenz. abk1. zero2. zone* * *nounZone, die[time] zone — Zeitzone, die
* * *v.in Zonen einteilen ausdr. n.Bereich -e m.Bezirk -e m.Zone -n f.
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