solution level

концентрация

ж.

1) (процесс сгущения, сосредоточения или его результат) concentration

концентра́ция промы́шленности — concentration of industry

концентра́ция произво́дства — concentration of production

концентра́ция капита́ла — concentration of capital

2) хим. ( содержание одного вещества в другом) concentration, content (level)

преде́льно допусти́мая концентра́ция (сокр. ПДК) — maximum allowable content

концентра́ция раство́ра хим. — concentration of a solution

дипломатический дипломатическ·ий

diplomatic

дипломатический агент / представитель — diplomatic agent / representative

гражданская ответственность дипломатического агента — civil liability of a diplomatic agent

назначение дипломатического агента / представителя — appointment of diplomatic representative

дипломатическая активность / деятельность — diplomatic activity

закулисная дипломатическая деятельность — behind-the-scenes diplomatic activity

дипломатические акты — diplomatic acts

дипломатическая акция — diplomatic action

дипломатические архивы — diplomatic archives

дипломатическая беседа — diplomatic conversation / talk

запись дипломатической беседы — record of a diplomatic conversation / talk

дипломатическая вализа — diplomatic valise

дипломатическое досье — diplomatic files

дипломатические документы — diplomatic documents

дипломатические источники — diplomatic sources

дипломатическая карточка — diplomatic identity card

дипломатические контакты / связи — diplomatic contacts

возобновление дипломатических контактов — resumption of diplomatic contacts

дипломатическая конференция — diplomatic conference

дипломатический корпус — Diplomatic Corps, Corps diplomatique фр

дуайен дипломатического корпуса, старшина дипломатического корпуса — Dean of the Diplomatic Corps, doyen фр

список дипломатического корпуса — diplomatic list

стоять выше кого-л. в списке дипломатического корпуса — to precede smb. on the diplomatic list

старшинство в дипломатическом корпусе — precedence in the Diplomatic Corps

церемониймейстер дипломатического корпуса — marshal of the Diplomatic Corps

член дипломатического корпуса — member of te Diplomatic Corps

дипломатическая корреспонденция — diplomatic correspondence

дипломатические круги — diplomatic circles / quarters

дипломатический курьер — diplomatic courier / messenger, King's / Queen's messenger (Великобритания)

дипломатическая любезность — diplomatic courtesy

дипломатический манёвр — diplomatic manoeuvre

дипломатическое маневрирование — diplomatic manoeuvring

дипломатический нажим (путём выдвижения ряда условий) — diplomatic pressure

подвергаться дипломатическому нажиму — to be under diplomatic pressure

дипломатический паспорт — diplomatic passport

дипломатические переговоры — diplomatic negotiations

путём проведения дипломатических переговоров — through a diplomatic bargain

дипломатическое письмо — diplomatic letter

дипломатическая победа — diplomatic victory

дипломатическая поддержка — diplomatic support

оказывать дипломатическую поддержку — to give diplomatic support

дипломатическая почта — diplomatic mail / pouch / valise

послать по дипломатической почте — to send by pouch

дипломатическое право — diplomatic law

дипломатический представитель — diplomatic agent / envoy, resident

неофициальный дипломатический представитель — unofficial diplomatic agent

официальный дипломатический представитель — official diplomatic representative

неприкосновенность дипломатических представителей — inviolability of diplomatic envoys

обмен дипломатическими представителями — exchange of diplomatic representatives

прекратить обмен дипломатическими представителями — to terminate the exchange of diplomatic representatives

протокольная (по дипломатическому старшинству) рассадка дипломатических представителей — alternate seating of diplomatic representatives

старшинство среди дипломатических представителей — hierarchy among diplomatic representatives

дипломатическое представительство — diplomatic mission / representation

обменяться дипломатическими представителями на уровне посольств — to exchange diplomatic missions at ambassadorial level

дипломатическое представительство, аккредитованное в стране пребывания — accredited mission

постоянное дипломатическое представительство — permanent diplomatic mission

чрезвычайное дипломатическое представительство — extraordinary diplomatic mission

здание / помещение дипломатического представительства — diplomatic premises

неприкосновенность дипломатических представительств — inviolability of diplomatic premises

персонал дипломатического представительства — diplomatic staff

отзыв персонала дипломатического представительства — diplomatic withdraval

порядок старшинства в дипломатическом представительстве — internal precedence of the mission

работник / сотрудник дипломатического представительства — diplomatic official / officer

домашние работники членов дипломатического представительства — domestic / private servants of members of a diplomatic mission

служащие дипломатического представительства — employces of a diplomatic mission

штат сотрудников дипломатического представительства — diplomatic manpower

дипломатические привилегии и иммунитеты — diplomatic priviledges and immunities

дипломатический приём — diplomatic reception

дипломатическое признание — diplomatic recognition

отказывать в дипломатическом признании — to refuse diplomatic recognition

отказаться от дипломатического признания — to withdraw diplomatic recognition

предоставлять дипломатическое признание — to grant diplomatic recognition

дипломатический протокол — diplomatic protocol

дипломатическая работа — diplomatic work

дипломатический ранг — diplomatic rank

устанавливать дипломатический ранг — to institute a diplomatic rank

дипломатическая служба — diplomatic service

готовить для дипломатической службы — to train (smb.) for the diplomatic service

дипломатические средства — diplomatic means, instruments of diplomacy

выход из кризисной ситуации дипломатическим путём / дипломатическими средствами — a diplomatic way out

пытаться найти выход из кризисной ситуации дипломатическим путём / дипломатическими средствами — to seek a diplomatic way out

решение проблемы дипломатическим путём / дипломатическими средствами — diplomatic settlement, solution

дипломатическая традиция — diplomatic custom

дипломатическая трибуна — diplomatic platform

рассадка на дипломатической трибуне — balance of the diplomatic platform

дипломатическое убежище (в здании дипломатического представительства) — diplomatic asylum

дипломатические усилия — diplomatic efforts

дипломатическая уступка разг. — climb-down (over smth.)

дипломатический церемониал — diplomatic ceremonial

дипломатический язык — diplomatic language

на дипломатическом языке — in diplomatic terms

метастабильный

metastable

метастабильный раствор — metastable solution

метастабильный уровень — metastable level

электролит

electrolyte
хим. вещество (раствор), в котором прохождение эл. тока сопровождается электролизом. — а substance in which the conduction of electricity is accompanied by chemical асtion.
- (аккумулятора) — electrolyte, battery acid
раствор серной кислоты в дистиллированной воде в свинцово-кислотных аккумуляторах. — а solution that serves as the electrolyte in а storage battery. in a lead-acid batlery, the electrolyte is diluted sulphuric acid.
-, зимний — strong electrolyte
-, кислотный — acid electrolyte
- летний — weak electrolyte
-, цианистый — cyanide electrolyte
-, щелочной — alkali electrolyte
едкий калий + моногидрат гидроокиси лития. доводить уровень и плотность э. (до нормы) понижать плотность э. — caustic potash + lithium hydroxide monohydrate. adjust electrolyte level and specific gravity reduce electrolyte specific gravity

Haber, Fritz

SUBJECT AREA: Chemical technology

[br]

b. 9 December 1868 Breslau, Germany (now Wroclaw, Poland)

d. 29 January 1934 Basel, Switzerland

[br]

German chemist, inventor of the process for the synthesis of ammonia.

[br]

Haber's father was a manufacturer of dyestuffs, so he studied organic chemistry at Berlin and Heidelberg universities to equip him to enter his father's firm. But his interest turned to physical chemistry and remained there throughout his life. He became Assistant at the Technische Hochschule in Karlsruhe in 1894; his first work there was on pyrolysis and electrochemistry, and he published his Grundrisse der technischen Electrochemie in 1898. Haber became famous for thorough and illuminating theoretical studies in areas of growing practical importance. He rose through the academic ranks and was appointed a full professor in 1906. In 1912 he was also appointed Director of the Institute of Physical Chemistry and Electrochemistry at Dahlem, outside Berlin.

Early in the twentieth century Haber invented a process for the synthesis of ammonia. The English chemist and physicist Sir William Crookes (1832–1919) had warned of the danger of mass hunger because the deposits of Chilean nitrate were becoming exhausted and nitrogenous fertilizers would not suffice for the world's growing population. A solution lay in the use of the nitrogen in the air, and the efforts of chemists centred on ways of converting it to usable nitrate. Haber was aware of contemporary work on the fixation of nitrogen by the cyanamide and arc processes, but in 1904 he turned to the study of ammonia formation from its elements, nitrogen and hydrogen. During 1907–9 Haber found that the yield of ammonia reached an industrially viable level if the reaction took place under a pressure of 150–200 atmospheres and a temperature of 600°C (1,112° F) in the presence of a suitable catalyst—first osmium, later uranium. He devised an apparatus in which a mixture of the gases was pumped through a converter, in which the ammonia formed was withdrawn while the unchanged gases were recirculated. By 1913, Haber's collaborator, Carl Bosch had succeeded in raising this laboratory process to the industrial scale. It was the first successful high-pressure industrial chemical process, and solved the nitrogen problem. The outbreak of the First World War directed the work of the institute in Dahlem to military purposes, and Haber was placed in charge of chemical warfare. In this capacity, he developed poisonous gases as well as the means of defence against them, such as gas masks. The synthetic-ammonia process was diverted to produce nitric acid for explosives. The great benefits and achievement of the Haber-Bosch process were recognized by the award in 1919 of the Nobel Prize in Chemistry, but on account of Haber's association with chemical warfare, British, French and American scientists denounced the award; this only added to the sense of bitterness he already felt at his country's defeat in the war. He concentrated on the theoretical studies for which he was renowned, in particular on pyrolysis and autoxidation, and both the Karlsruhe and the Dahlem laboratories became international centres for discussion and research in physical chemistry.

With the Nazi takeover in 1933, Haber found that, as a Jew, he was relegated to second-class status. He did not see why he should appoint staff on account of their grandmothers instead of their ability, so he resigned his posts and went into exile. For some months he accepted hospitality in Cambridge, but he was on his way to a new post in what is now Israel when he died suddenly in Basel, Switzerland.

[br]

Bibliography

1898, Grundrisse der technischen Electrochemie.

1927, Aus Leben und Beruf.

Further Reading

J.E.Coates, 1939, "The Haber Memorial Lecture", Journal of the Chemical Society: 1,642–72.

M.Goran, 1967, The Story of Fritz Haber, Norman, OK: University of Oklahoma Press (includes a complete list of Haber's works).

LRD

Monro, Philip Peter

SUBJECT AREA: Chemical technology

[br]

b. 27 May 1946 London, England

[br]

English biologist, inventor of a water-purification process by osmosis.

[br]

Monro's whole family background is engineering, an interest he did not share. Instead, he preferred biology, an enthusiasm aroused by reading the celebrated Science of Life by H.G. and G.P.Wells and Julian Huxley. Educated at a London comprehensive school, Monro found it necessary to attend evening classes while at school to take his advanced level science examinations. Lacking parental support, he could not pursue a degree course until he was 21 years old, and so he gained valuable practical experience as a research technician. He resumed his studies and took a zoology degree at Portsmouth Polytechnic. He then worked in a range of zoology and medical laboratories, culminating after twelve years as a Senior Experimental Officer at Southampton Medical School. In 1989 he relinquished his post to devote himself fall time to developing his inventions as Managing Director of Hampshire Advisory and Technical Services Ltd (HATS). Also in 1988 he obtained his PhD from Southampton University, in the field of embryology.

Monro had meanwhile been demonstrating a talent for invention, mainly in microscopy. His most important invention, however, is of a water-purification system. The idea for it came from Michael Wilson of the Institute of Dental Surgery in London, who evolved a technique for osmotic production of sterile oral rehydration solutions, of particular use in treating infants suffering from diarrhoea in third-world countries. Monro broadened the original concept to include dried food, intravenous solutions and even dried blood. The process uses simple equipment and no external power and works as follows: a dry sugar/salts mixture is sealed in one compartment of a double bag, the common wall of which is a semipermeable membrane. Impure water is placed in the empty compartment and the water transfers across the membrane by the osmotic force of the sugar/salts. As the pores in the membrane exclude all viruses, bacteria and their toxins, a sterile solution is produced.

With the help of a research fellowship granted for humanitarian reasons at King Alfred College, Winchester, the invention was developed to functional prototype stage in 1993, with worldwide patent protection. Commercial production was expected to follow, if sufficient financial backing were forthcoming. The process is not intended to replace large installations, but will revolutionize the small-scale production of sterile water in scattered third-world communities and in disaster areas where normal services have been disrupted.

HATS was awarded First Prize in the small business category and was overall prize winner in the Toshiba Year of Invention, received a NatWest/BP award for technology and a Prince of Wales Award for Innovation.

[br]

Bibliography

1993, with M.Wilson and W.A.M.Cutting, "Osmotic production of sterile oral rehydration solutions", Tropical Doctor 23:69–72.

LRD

вырожденный

1. degenerated

вырожденный газ — degenerate gas

вырожденная мода — degenerate mode

вырожденный лазер — degenerate laser

вырожденный кодон — degenerated codon

вырожденный случай — degenerated case

2. degenerate

вырожденный уровень — degenerate level

вырожденная область — degenerate region

вырожденная система — degenerate system

вырожденная материя — degenerate matter

вырожденное решение — degenerate solution

метастабильный

metastable

метастабильный атом — metastable atom

метастабильный уровень — metastable level

метастабильный раствор — metastable solution

метастабильный

metastable

метастабильный раствор — metastable solution

метастабильный уровень — metastable level

Animal Intelligence

   1) The Criterion of Insightful Behavior

   We can... distinguish sharply between the kind of behavior which from the very beginning arises out of a consideration of the structure of a situation, and one that does not. Only in the former case do we speak of insight, and only that behavior of animals definitely appears to us intelligent which takes account from the beginning of the lay of the land, and proceeds to deal with it in a single, continuous, and definite course. Hence follows this criterion of insight: the appearance of a complete solution with reference to the whole lay- out of the field. (KoЁhler, 1927, pp. 169-170)

   2) Signs Occasion Thought but Not Action

   Signs, in [Edward] Tolman's theory, occasion in the rat realization, or cognition, or judgment, or hypotheses, or abstraction, but they do not occasion action. In his concern with what goes on in the rat's mind, Tolman has neglected to predict what the rat will do. So far as the theory is concerned the rat is left buried in thought: if he gets to the food-box at the end that is his concern, not the concern of the theory. (Guthrie, 1972, p. 172)

   3) A New Insight Consists of a Recombination of Pre-existent Mediating Properties

   The insightful act is an excellent example of something that is not learned, but still depends on learning. It is not learned, since it can be adequately performed on its first occurrence; it is not perfected through practice in the first place, but appears all at once in recognizable form (further practice, however, may still improve it). On the other hand, the situation must not be completely strange; the animal must have had prior experience with the component parts of the situation, or with other situations that have some similarity to it.... All our evidence thus points to the conclusion that a new insight consists of a recombination of pre existent mediating processes, not the sudden appearance of a wholly new process. (Hebb, 1958, pp. 204-205)

   4) Interpretation of Morgan's Canon

   In Morgan's own words, the principle is, "In no case may we interpret an action as the outcome of the exercise of a higher psychical faculty, if it can be interpreted as the outcome of the exercise of one which stands lower in the psychological scale." Behaviorists universally adopted this idea as their own, interpreting it as meaning that crediting consciousness to animals can't be justified if the animal's behavior can be explained in any other way, because consciousness is certainly a "higher psychical faculty." Actually, their interpretation is wrong, since Morgan was perfectly happy with the idea of animal consciousness: he even gives examples of it directly taken from dog behavior. Thus in The Limits of Animal Intelligence, he describes a dog returning from a walk "tired" and "hungry" and going down into the kitchen and "looking up wistfully" at the cook. Says Morgan about this, "I, for one, would not feel disposed to question that he has in his mind's eye a more or less definite idea of a bone."

   Morgan's Canon really applies to situations where the level of intelligence credited to an animal's behavior goes well beyond what is really needed for simple and sensible explanation. Thus application of Morgan's Canon would prevent us from presuming that, when a dog finds its way home after being lost for a day, it must have the ability to read a map, or that, if a dog always begins to act hungry and pace around the kitchen at 6 P.M. and is always fed at 6:30 P.M., this must indicate that it has learned how to tell time. These conclusions involve levels of intelligence that are simply not needed to explain the behaviors. (Coren, 1994, pp. 72-73)

Heuristics

   1) The Centrality of Heuristics in the Mathematical Discoveries of AM ( Automatic Mathematician)

   [A]t one point AM [Automatic Mathematician] had some notions of sets, set-operations, numbers, and simple arithmetic. One heuristic rule it knew said " If F is an interesting relation, then look at its inverse". This rule fired after AM had studied "multiplication" for a while. The r.h.s. of the rule then directed AM to define and study the relation "divisors-of" (e.g. divisors-of (12) {1,2,3,4,6,12}. Another heuristic rule that later fired said " If f is a relation from A into B, then it's worth examining those members of A which map into extremal members of B." In this case, f was matched to "divisors-of", A was "numbers", B was "sets of numbers", and an extremal member of B might be, e.g., a very small set of numbers. Thus this heuristic rule caused AM to define the set of numbers with no divisors, the set of numbers with only 1 divisor, with only 2 divisors, etc. One of these sets (the last [ sic] mentioned) turned out subsequently to be quite important; these numbers are of course the primes. (Lenat & Harris, 1978, p. 30)

   2) The Power of Heuristics in Problem Solving

   Extraordinarily rapid progress during the early stages of an attack on a new problem area is a rather common occurrence in AI research; it merely signifies that the test cases with which the system has been challenged are below the level of difficulty where combinatorial explosion of the number of pathways in the problem space sets in.... It is the goal of AI research to move that threshold higher and higher on the scale of problem complexity through the introduction of heuristics-heuristics to reduce the rate of growth of the solution tree, heuristics to guide the development of the tree so that it will be rich in pathways leading to satisfactory problem solutions, and heuristics to direct the search to the "best" of these pathways. (Gelernter, quoted in Barr & Feigenbaum, 1982, pp. 139-140)

интеллектуальный центр управления электродвигателями

1. intelligent motor control center
2. IMCC

 

интеллектуальный центр управления электродвигателями
-
[Интент]

Параллельные тексты EN-RU

iMCC ( Intelligent Motor Control Center) control switchboards are low voltage switchboards dedicated to energy distribution, as well as control and protection of motors. They are used in continuous and semi-continuous processes, in which it is necessary to group the motor starters together in one place for operational and maintenance reasons.

Integration of motor starters in iMCC switchboards
iMCC control switchboards make the work of operation and maintenance teams easier by improving the availability of the process, via:
• Control of motor starters using wire-to-wire cabling or via remote I/O located as close as possible to the starters and connected on the network
• Protection of the motors using an intelligent electronic protection relay. This provides more precise protection of the motors (analysis of operating conditions and alarm thresholds before tripping, etc).
These two functions can be grouped together in a single product, the electronic protection module. In this case, the protection relay module manages and transmits all this control and protection information directly.
Advantages of iMCC switchboards
iMCC control switchboards provide a high level of process availability while ensuring the safety of property and personnel. This solution decreases the number of process stoppages and their duration, reduces maintenance, reduces and repairs costs and optimizes process productivity:
• Reduction of process stoppages as a result of detailed alarms and diagnostics that enable staff to react before the motor starter trips, or react more quickly if it does trip
• Rapid diagnostics due to the availability of more detailed information on the stoppage conditions
• Analysis of stoppage logs using statistics from the electronic protection module.
iMCC control switchboards make installations easier to create, by reducing engineering and debugging time:
• Rapid parameter-setting as a result of local or remote downloading
• Analysis of phenomena via alarms, detailed diagnostics and stoppage logs (statistics embedded in the electronic protection module).

[Schneider Electric]

iMCC ( Интеллектуальный центр управления электродвигателями) представляет собой низковольтное комплектное устройство (НКУ) распределения электроэнергии, защиты и управления электродвигателями. Такие НКУ используются для управления непрерывными и полунепрерывными технологическими процессами, в которых для обеспечения эффективной эксплуатации и технического обслуживания необходимо, чтобы пускатели были размещены в одном месте.

Тематики

• НКУ (шкафы, пульты,...)
• управление электродвигателями

EN

• IMCC
• iMCC
• intelligent motor control center

пакет услуг

1. service package

 

пакет услуг
(ITIL Service Strategy)
Две или более услуг, объединенных для удовлетворения определённого типа потребностей заказчиков или поддержки определённых бизнес- результатов. Пакет услуг может состоять из комбинации основных, дополняющих и улучшающих услуг. Пакет услуг предоставляет определенный уровень полезности и гарантии. Заказчикам может быть предложен выбор уровня полезности и гарантии в рамках одной или нескольких опций предоставления услуг.
См. тж. ИТ-услуга
[Словарь терминов ITIL версия 1.0, 29 июля 2011 г.]

EN

service package
(ITIL Service Strategy)
Two or more services that have been combined to offer a solution to a specific type of customer need or to underpin specific business outcomes. A service package can consist of a combination of core services, enabling services and enhancing services. A service package provides a specific level of utility and warranty. Customers may be offered a choice of utility and warranty through one or more service options.
See also IT service.
[Словарь терминов ITIL версия 1.0, 29 июля 2011 г.]

Тематики

• информационные технологии в целом

EN

• service package

технологии для автоматизации

1. automation technologies

 

технологии для автоматизации
-
[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

• автоматизированные системы

EN

• automation technologies