Electric Power Corporation

Electric Power Corporation

Trademark term: EPC

American Electric Power Service Corporation

Trademark term: AEPS

meter data management system-система управления данными измерений, система сбора и обработки данных измерений

Power engineering: MDMS (Вариант перевода. Термин взят from a document issued by an electric power corporation)

EPC

1) Общая лексика: Экстра-провинциальная корпорация (Extra-Provintial Corporation (Канада - компания, созданная в соответствии с норативными положениями одной провинции и зарегистрированная в другой провинции для ведения в ней бизнеса, либо компания другой страны,), (Engineering, Procurement, Construction) Проектирование-Закупки-Строительство

2) Компьютерная техника: Enhanced Pci Controller, Entropic Proprietary Coding

3) Американизм: Engineer Procure Construct

4) Военный термин: Education Promotion Certificate, Education Promotion Certificate, Advanced, Electronic Phone Check, elementary processing center

5) Техника: easy processing channel, electron photon cascade, electronic program control, emergency preparedness coordinator, end plate current, engineering planning coordinator, equipotential cathode, error protection code, Расширенный перлит с покрытием (Expanded perlite coated - изоляция)

6) Строительство: проектирование, материально-техническое снабжение, строительство (Engineering, Procurement and Construction), контракт на инжиниринг, поставки и строительство (http://www.proz.com/kudoz/english_to_russian/finance_general/2163298-convertible_epc_contract.html)

7) Религия: Evangelical Presbyterian Church

8) Бухгалтерия: Earnings Per Click

9) Автомобильный термин: electronic pressure control

10) Ветеринария: EctoPlacental Cone, Exceptionally Pretty Cat

11) Политика: Европейское Политическое Сотрудничество (European political cooperation)

12) Телекоммуникации: evolved packed core

13) Сокращение: Economic Policy Committee, Economic and Planning Council, Electro Prismatic Collimator, Electronic Plane Conversion, Electronic Power Conditioner, Engin Principal de Combat (Future main battle tank (France)), Esso Petroleum Company, European Planning Council, European Political Cooperation, электронный каталог запчастей (electronic parts catalog)

14) Университет: Educational Programs Committee

15) Физиология: Enhanced Primary Care, Extracellular Patch Clamp, endothelial progenitor cells

16) Электроника: Electronics Part Catalogue

17) Нефть: engineer, procure and construct

18) Банковское дело: European Payments Council = Европейский совет по платежным системам, Европейский совет по платежам

19) Биотехнология: Embryonic stem cells

20) Транспорт: Extended Propulsion Coverage

21) Воздухоплавание: Environmental Protection Control

22) Фирменный знак: Electric Power Corporation, Emerging Products Center

23) Экология: Environmental Policy Center, Конвенция о европейском патенте

24) Деловая лексика: Electronic Parts Catalog, Electronic Product Code, Engineering Procure And Construct

25) Глоссарий компании Сахалин Энерджи: energy performance contract, engineering procurement construction, проектирование, материально-техническое снабжение и строительство (Engineering Procurement and Construction), проектирование, снабжение и строительство (engineering, procurement and construction), (I) Engineering Procurement and Construction (Installation)

26) Окружающая среда: Energy Performance Certificate (http://en.wikipedia.org/wiki/Energy_Performance_Certificate)

27) Полимеры: easy processing carbon, ethylene propylene copolymer

28) Программирование: Emulate Pocket Calculator

29) Сахалин Р: Engineering Procurement and Construction, engineering, procurement and construction

30) Океанография: Economic Policy Council

31) Сахалин Ю: (M) engineering, procurement and construction contractor

32) SAP.тех. управляемая событиями цепь процессов

33) Нефть и газ: engineering & procurement company

34) Логистика: (Electronic Product Code) электронный код продукта

35) Единицы измерений: Earning Per Clicks

36) Международная торговля: European Patent Convention

37) Оргтехника: Electronic Pre-Collation (электронная подборка копий)

MDMS

1) Военный термин: Maintenance Data Management System, miss distance measuring system

2) Техника: miss-distance measuring system

3) Сокращение: Multiple Delivery Mine System

4) Энергетика: meter data management system-система управления данными измерений, система сбора и обработки данных измерений (Вариант перевода. Термин взят from a document issued by an electric power corporation)

Ferranti, Sebastian Ziani de

SUBJECT AREA: Electricity, Public utilities

[br]

b. 9 April 1864 Liverpool, England

d. 13 January 1930 Zurich, Switzerland

[br]

English manufacturing engineer and inventor, a pioneer and early advocate of high-voltage alternating-current electric-power systems.

[br]

Ferranti, who had taken an interest in electrical and mechanical devices from an early age, was educated at St Augustine's College in Ramsgate and for a short time attended evening classes at University College, London. Rather than pursue an academic career, Ferranti, who had intense practical interests, found employment in 1881 with the Siemens Company (see Werner von Siemens) in their experimental department. There he had the opportunity to superintend the installation of electric-lighting plants in various parts of the country. Becoming acquainted with Alfred Thomson, an engineer, Ferranti entered into a short-lived partnership with him to manufacture the Ferranti alternator. This generator, with a unique zig-zag armature, had an efficiency exceeding that of all its rivals. Finding that Sir William Thomson had invented a similar machine, Ferranti formed a company with him to combine the inventions and produce the Ferranti- Thomson machine. For this the Hammond Electric Light and Power Company obtained the sole selling rights.

In 1885 the Grosvenor Gallery Electricity Supply Corporation was having serious problems with its Gaulard and Gibbs series distribution system. Ferranti, when consulted, reviewed the design and recommended transformers connected across constant-potential mains. In the following year, at the age of 22, he was appointed Engineer to the company and introduced the pattern of electricity supply that was eventually adopted universally. Ambitious plans by Ferranti for London envisaged the location of a generating station of unprecedented size at Deptford, about eight miles (13 km) from the city, a departure from the previous practice of placing stations within the area to be supplied. For this venture the London Electricity Supply Corporation was formed. Ferranti's bold decision to bring the supply from Deptford at the hitherto unheard-of pressure of 10,000 volts required him to design suitable cables, transformers and generators. Ferranti planned generators with 10,000 hp (7,460 kW)engines, but these were abandoned at an advanced stage of construction. Financial difficulties were caused in part when a Board of Trade enquiry in 1889 reduced the area that the company was able to supply. In spite of this adverse situation the enterprise continued on a reduced scale. Leaving the London Electricity Supply Corporation in 1892, Ferranti again started his own business, manufacturing electrical plant. He conceived the use of wax-impregnated paper-insulated cables for high voltages, which formed a landmark in the history of cable development. This method of flexible-cable manufacture was used almost exclusively until synthetic materials became available. In 1892 Ferranti obtained a patent which set out the advantages to be gained by adopting sector-shaped conductors in multi-core cables. This was to be fundamental to the future design and development of such cables.

A total of 176 patents were taken out by S.Z. de Ferranti. His varied and numerous inventions included a successful mercury-motor energy meter and improvements to textile-yarn produc-tion. A transmission-line phenomenon where the open-circuit voltage at the receiving end of a long line is greater than the sending voltage was named the Ferranti Effect after him.

[br]

Principal Honours and Distinctions

FRS 1927. President, Institution of Electrical Engineers 1910 and 1911. Institution of Electrical Engineers Faraday Medal 1924.

Bibliography

18 July 1882, British patent no. 3,419 (Ferranti's first alternator).

13 December 1892, British patent no. 22,923 (shaped conductors of multi-core cables). 1929, "Electricity in the service of man", Journal of the Institution of Electrical Engineers 67: 125–30.

Further Reading

G.Z.de Ferranti and R. Ince, 1934, The Life and Letters of Sebastian Ziani de Ferranti, London.

A.Ridding, 1964, S.Z.de Ferranti. Pioneer of Electric Power, London: Science Museum and HMSO (a concise biography).

R.H.Parsons, 1939, Early Days of the Power Station Industry, Cambridge, pp. 21–41.

GW

AEPS

1) Военный термин: Army Electronic Product Support, automated environmental prediction system

2) Техника: American Electric Power System

3) Сокращение: American Electroplaters' Society (Американское общество гальванотехников)

4) Университет: Assessment, Evaluation, and Programming System

5) Космонавтика: Arctic Environmental Protection Strategy

6) Транспорт: Advanced Electric Propulsion System

7) Фирменный знак: Alternative Electric Power Systems, American Electric Power Service Corporation

8) Деловая лексика: Advanced Energy Portfolio Standard

9) Химическое оружие: potassium salt of methyl-phosphonic acid ester, potassium salt of methylphosphonic acid ester

10) Электротехника: American Electric Power System( сокр.) (объединенная энергосистема на территории сети восточно-центральных штатов США)

11) Должность: Aviation Employee Placement Service

12) НАСА: Advanced Electrical Power Systems

SEP

1) Компьютерная техника: Simple And Easy Programming, System Enhancement Package, signalling end point, spherical error probable, standart electronic package

2) Геология: Santa Elena Peninsula

3) Американизм: Some Evil Powers, Special Executive Protection

4) Военный термин: Signal Entry Panel, Soldier Enhancement Program, Somebody Else's Problem, Synthetic Environment Program, System Engineering Process, System Evaluation Plan, scientific and engineering personnel, scoring error of probability, special emphasis program, specific excess power, spherical error probability, standard electronics package, support equipment package, surrendered enemy personnel, systems effectiveness plan, systems engineering process, Selective Employment Plan (NATO)

5) Техника: Systematic Evaluation Program, safety enhancement program, self-elevating offshore platform, site emergency plan, solar electric propulsion, source evaluation panel, spacecraft electronics package, standby electric power

6) Шутливое выражение: Stop Eating Poop

7) Математика: Strong Error Percentage

8) Юридический термин: Separated

9) Астрономия: Solar Energetic Particle

10) Грубое выражение: Separated, not yet divorced

11) Телевидение: separator

12) Сокращение: September, Single-Event Phenomenon, Societe Europeenne de Propulsion (France), Soldier Enhancement Plan (USA), System Enhancement Package (Abrams main battle tank system), System Enhancement Package/Program (US DoD), System Enhancement Program, System Executive & Planning, star epitaxial planar, Sound Engineering Practice

13) Театр: Special Effects Performance

14) Университет: Science Exchange Program, Science Exchange Programme, Scientific Exchange Programme, Solve, Educate, And Prevent, Special Embassy Program, Student Educational Plan

15) Физиология: Sclerosing Encapsulating Peritonitis

16) Электроника: Software engineering process

17) Вычислительная техника: Secure Electronic Transactions, Someone Else's Problem (DFUE-Slang, Usenet, IRC)

18) Нефть: self-elevating platform, самоподнимающаяся буровая платформа (self-elevating platform)

19) Иммунология: Salmonid Enhancement Program, Smallpox Eradication Program

20) Транспорт: Surface Extension Project

21) Воздухоплавание: Separation Parameter

22) Деловая лексика: Sector Expenditure Program, Simplified Employer Pension, Small Experimental Project, Standards Of Effective Practice, Strategic Excellence Position

23) Глоссарий компании Сахалин Энерджи: safety execution plan

24) Образование: Science Enrichment Preparation, Science Enrichment Program, Student Education Plan, Student Education Profile, Summer Enrichment Program, Supplementary Education Program

25) Сетевые технологии: Scalable Encryption Processor

26) Авиационная медицина: somatosensory evoked potential

27) Макаров: stimulated emission pumping

28) Безопасность: Single Entry Point

29) Расширение файла: Printer separator page

30) Автодорожное право: State Enforcement Plan, План штата по обеспечению выполнения требований безопасности

31) Должность: Simplified Employee Pension, Simplified Employee Plan, Surrogate Employer Programme

32) NYSE. Swedish Export CR Corporation

sep

1) Компьютерная техника: Simple And Easy Programming, System Enhancement Package, signalling end point, spherical error probable, standart electronic package

2) Геология: Santa Elena Peninsula

3) Американизм: Some Evil Powers, Special Executive Protection

4) Военный термин: Signal Entry Panel, Soldier Enhancement Program, Somebody Else's Problem, Synthetic Environment Program, System Engineering Process, System Evaluation Plan, scientific and engineering personnel, scoring error of probability, special emphasis program, specific excess power, spherical error probability, standard electronics package, support equipment package, surrendered enemy personnel, systems effectiveness plan, systems engineering process, Selective Employment Plan (NATO)

5) Техника: Systematic Evaluation Program, safety enhancement program, self-elevating offshore platform, site emergency plan, solar electric propulsion, source evaluation panel, spacecraft electronics package, standby electric power

6) Шутливое выражение: Stop Eating Poop

7) Математика: Strong Error Percentage

8) Юридический термин: Separated

9) Астрономия: Solar Energetic Particle

10) Грубое выражение: Separated, not yet divorced

11) Телевидение: separator

12) Сокращение: September, Single-Event Phenomenon, Societe Europeenne de Propulsion (France), Soldier Enhancement Plan (USA), System Enhancement Package (Abrams main battle tank system), System Enhancement Package/Program (US DoD), System Enhancement Program, System Executive & Planning, star epitaxial planar, Sound Engineering Practice

13) Театр: Special Effects Performance

14) Университет: Science Exchange Program, Science Exchange Programme, Scientific Exchange Programme, Solve, Educate, And Prevent, Special Embassy Program, Student Educational Plan

15) Физиология: Sclerosing Encapsulating Peritonitis

16) Электроника: Software engineering process

17) Вычислительная техника: Secure Electronic Transactions, Someone Else's Problem (DFUE-Slang, Usenet, IRC)

18) Нефть: self-elevating platform, самоподнимающаяся буровая платформа (self-elevating platform)

19) Иммунология: Salmonid Enhancement Program, Smallpox Eradication Program

20) Транспорт: Surface Extension Project

21) Воздухоплавание: Separation Parameter

22) Деловая лексика: Sector Expenditure Program, Simplified Employer Pension, Small Experimental Project, Standards Of Effective Practice, Strategic Excellence Position

23) Глоссарий компании Сахалин Энерджи: safety execution plan

24) Образование: Science Enrichment Preparation, Science Enrichment Program, Student Education Plan, Student Education Profile, Summer Enrichment Program, Supplementary Education Program

25) Сетевые технологии: Scalable Encryption Processor

26) Авиационная медицина: somatosensory evoked potential

27) Макаров: stimulated emission pumping

28) Безопасность: Single Entry Point

29) Расширение файла: Printer separator page

30) Автодорожное право: State Enforcement Plan, План штата по обеспечению выполнения требований безопасности

31) Должность: Simplified Employee Pension, Simplified Employee Plan, Surrogate Employer Programme

32) NYSE. Swedish Export CR Corporation

EPEA

1) Техника: experiment pointing electronic assembly

2) Сокращение: Electric Power Engineers Association

3) Глоссарий компании Сахалин Энерджи: European Production Engineering Association

4) НАСДАК: E Prime Aerospace Corporation

Hamilton, Harold Lee (Hal)

SUBJECT AREA: Land transport, Railways and locomotives, Steam and internal combustion engines

[br]

b. 14 June 1890 Little Shasta, California, USA

d. 3 May 1969 California, USA

[br]

American pioneer of diesel rail traction.

[br]

Orphaned as a child, Hamilton went to work for Southern Pacific Railroad in his teens, and then worked for several other companies. In his spare time he learned mathematics and physics from a retired professor. In 1911 he joined the White Motor Company, makers of road motor vehicles in Denver, Colorado, where he had gone to recuperate from malaria. He remained there until 1922, apart from an eighteenth-month break for war service.

Upon his return from war service, Hamilton found White selling petrol-engined railbuses with mechanical transmission, based on road vehicles, to railways. He noted that they were not robust enough and that the success of petrol railcars with electric transmission, built by General Electric since 1906, was limited as they were complex to drive and maintain. In 1922 Hamilton formed, and became President of, the Electro- Motive Engineering Corporation (later Electro-Motive Corporation) to design and produce petrol-electric rail cars. Needing an engine larger than those used in road vehicles, yet lighter and faster than marine engines, he approached the Win ton Engine Company to develop a suitable engine; in addition, General Electric provided electric transmission with a simplified control system. Using these components, Hamilton arranged for his petrol-electric railcars to be built by the St Louis Car Company, with the first being completed in 1924. It was the beginning of a highly successful series. Fuel costs were lower than for steam trains and initial costs were kept down by using standardized vehicles instead of designing for individual railways. Maintenance costs were minimized because Electro-Motive kept stocks of spare parts and supplied replacement units when necessary. As more powerful, 800 hp (600 kW) railcars were produced, railways tended to use them to haul trailer vehicles, although that practice reduced the fuel saving. By the end of the decade Electro-Motive needed engines more powerful still and therefore had to use cheap fuel. Diesel engines of the period, such as those that Winton had made for some years, were too heavy in relation to their power, and too slow and sluggish for rail use. Their fuel-injection system was erratic and insufficiently robust and Hamilton concluded that a separate injector was needed for each cylinder.

In 1930 Electro-Motive Corporation and Winton were acquired by General Motors in pursuance of their aim to develop a diesel engine suitable for rail traction, with the use of unit fuel injectors; Hamilton retained his position as President. At this time, industrial depression had combined with road and air competition to undermine railway-passenger business, and Ralph Budd, President of the Chicago, Burlington \& Quincy Railroad, thought that traffic could be recovered by way of high-speed, luxury motor trains; hence the Pioneer Zephyr was built for the Burlington. This comprised a 600 hp (450 kW), lightweight, two-stroke, diesel engine developed by General Motors (model 201 A), with electric transmission, that powered a streamlined train of three articulated coaches. This train demonstrated its powers on 26 May 1934 by running non-stop from Denver to Chicago, a distance of 1,015 miles (1,635 km), in 13 hours and 6 minutes, when the fastest steam schedule was 26 hours. Hamilton and Budd were among those on board the train, and it ushered in an era of high-speed diesel trains in the USA. By then Hamilton, with General Motors backing, was planning to use the lightweight engine to power diesel-electric locomotives. Their layout was derived not from steam locomotives, but from the standard American boxcar. The power plant was mounted within the body and powered the bogies, and driver's cabs were at each end. Two 900 hp (670 kW) engines were mounted in a single car to become an 1,800 hp (l,340 kW) locomotive, which could be operated in multiple by a single driver to form a 3,600 hp (2,680 kW) locomotive. To keep costs down, standard locomotives could be mass-produced rather than needing individual designs for each railway, as with steam locomotives. Two units of this type were completed in 1935 and sent on trial throughout much of the USA. They were able to match steam locomotive performance, with considerable economies: fuel costs alone were halved and there was much less wear on the track. In the same year, Electro-Motive began manufacturing diesel-electrie locomotives at La Grange, Illinois, with design modifications: the driver was placed high up above a projecting nose, which improved visibility and provided protection in the event of collision on unguarded level crossings; six-wheeled bogies were introduced, to reduce axle loading and improve stability. The first production passenger locomotives emerged from La Grange in 1937, and by early 1939 seventy units were in service. Meanwhile, improved engines had been developed and were being made at La Grange, and late in 1939 a prototype, four-unit, 5,400 hp (4,000 kW) diesel-electric locomotive for freight trains was produced and sent out on test from coast to coast; production versions appeared late in 1940. After an interval from 1941 to 1943, when Electro-Motive produced diesel engines for military and naval use, locomotive production resumed in quantity in 1944, and within a few years diesel power replaced steam on most railways in the USA.

Hal Hamilton remained President of Electro-Motive Corporation until 1942, when it became a division of General Motors, of which he became Vice-President.

[br]

Further Reading

P.M.Reck, 1948, On Time: The History of the Electro-Motive Division of General Motors Corporation, La Grange, Ill.: General Motors (describes Hamilton's career).

PJGR

Alexanderson, Ernst Frederik Werner

SUBJECT AREA: Broadcasting, Electricity, Electronics and information technology, Telecommunications

[br]

b. 25 January 1878 Uppsala, Sweden

d. ? 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 Distinctions

Institution of Radio Engineers Medal of Honour 1919. President, IERE 1921. Edison Medal 1944.

Bibliography

Publications 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 Electrical

Engineers (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 American

Institution of Electrical Engineers 59:937.

Further Reading

E.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).

KF

Poniatoff, Alexander Mathew

SUBJECT AREA: Broadcasting, Electronics and information technology, Recording

[br]

b. 25 March 1892 Kazan District, Russia

d. 24 October 1980

[br]

Russian (naturalized American in 1932) electrical engineer responsible for the development of the professional tape recorder and the first commercially-successful video tape recorder (VTR).

[br]

Poniatoff was educated at the University of Kazan, the Imperial College in Moscow, and the Technische Hochschule in Karlsruhe, gaining degrees in mechanical and electrical engineering. He was in Germany when the First World War broke out, but he managed to escape back to Russia, where he served as an Air Force pilot with the Imperial Russian Navy. During the Russian Revolution he was a pilot with the White Russian Forces, and escaped into China in 1920; there he found work as an assistant engineer in the Shanghai Power Company. In 1927 he immigrated to the USA, becoming a US citizen in 1932. He obtained a post in the research and development department of the General Electric Company in Schenectady, New York, and later at Dalmo Victor, San Carlos, California. During the Second World War he was involved in the development of airborne radar for the US Navy.

In 1944, taking his initials to form the title, Poniatoff founded the AMPEX Corporation to manufacture components for the airborne radar developed at General Electric, but in 1946 he turned to the production of audio tape recorders developed from the German wartime Telefunken Magnetophon machine (the first tape recorder in the truest sense). In this he was supported by the entertainer Bing Crosby, who needed high-quality replay facilities for broadcasting purposes, and in 1947 he was able to offer a professional-quality product and the business prospered.

With the rapid post-war boom in television broadcasting in the USA, a need soon arose for a video recorder to provide "time-shifting" of live TV programmes between the different US time zones. Many companies therefore endeavoured to produce a video tape recorder (VTR) using the same single-track, fixed-head, longitudinal-scan system used for audio, but the very much higher bandwidth required involved an unacceptably high tape-speed. AMPEX attempted to solve the problem by using twelve parallel tracks and a machine was demonstrated in 1952, but it proved unsatisfactory.

The development team, which included Charles Ginsburg and Ray Dolby, then devised a four-head transverse-scan system in which a quadruplex head rotating at 14,400 rpm was made to scan across the width of a 2 in. (5 cm) tape with a tape-to-head speed of the order of 160 ft/sec (about 110 mph; 49 m/sec or 176 km/h) but with a longitudinal tape speed of only 15 in./sec (0.38 m/sec). In this way, acceptable picture quality was obtained with an acceptable tape consumption. Following a public demonstration on 14 April 1956, commercial produc-tion of studio-quality machines began to revolutionize the production and distribution of TV programmes, and the perfecting of time-base correctors which could stabilize the signal timing to a few nanoseconds made colour VTRs a practical proposition. However, AMPEX did not rest on its laurels and in the face of emerging competition from helical scan machines, where the tracks are laid diagonally on the tape, the company was able to demonstrate its own helical machine in 1957. Another development was the Videofile system, in which 250,000 pages of facsimile could be recorded on a single tape, offering a new means of archiving information. By 1986, quadruplex VTRs were obsolete, but Poniatoff's role in making television recording possible deserves a place in history.

Poniatoff was President of AMPEX Corporation until 1955 and then became Chairman of the Board, a position he held until 1970.

[br]

Further Reading

A.Abrahamson, 1953, "A short history of television recording", Part I, JSMPTE 64:73; 1973, Part II, Journal of the Society of Motion Picture and Television Engineers, 82:188 (provides a fuller background).

Audio Biographies, 1961, ed. G.A.Briggs, Wharfedale Wireless Works, pp. 255–61 (contains a few personal details about Poniatoff's escape from Germany to join the Russian Navy).

E.Larsen, 1971, A History of Invention.

Charles Ginsburg, 1981, "The horse or the cowboy. Getting television on tape", Journal of the Royal Television Society 18:11 (a brief account of the AMPEX VTR story).

KF / GB-N

MEL

1) Общая лексика: minimum equipment list

2) Компьютерная техника: Maya Embedded Language

3) Авиация: Directive to select military power, список минимального оборудования (Minimum Equipment List)

4) Военный термин: Master Events List, Mobile Equipment Load, maneuvering element, many-element laser, master equipment list, material engineering laboratory, military education level, mobile erector launcher

5) Техника: Mitsubishi Electric Corp., multiemitter logic

6) Оптика: maximum excess loss

7) Телекоммуникации: Most Efficient Level

8) Сокращение: Master of English Literature, Missile Ejector Launcher, Music Education League, melamine

9) Физиология: Melanoma

10) Вычислительная техника: Maya Embedded Language (Maya)

11) Нефть: mechanical efficiency log, micro electric log

12) Транспорт: Mercury Edsel And Lincoln

13) Экология: maximum exposure limit

14) Деловая лексика: Managing Employment Liability

15) Глоссарий компании Сахалин Энерджи: minimum effect level

16) Образование: Michigan Electronic Library, Midway Elementary Library

17) Безопасность: Mime Encoding Library

18) Электротехника: minimum excitation limiter

19) NYSE. Mellon Financial Corporation

20) Аэропорты: Melbourne, Victoria, Australia

mel

1) Общая лексика: minimum equipment list

2) Компьютерная техника: Maya Embedded Language

3) Авиация: Directive to select military power, список минимального оборудования (Minimum Equipment List)

4) Военный термин: Master Events List, Mobile Equipment Load, maneuvering element, many-element laser, master equipment list, material engineering laboratory, military education level, mobile erector launcher

5) Техника: Mitsubishi Electric Corp., multiemitter logic

6) Оптика: maximum excess loss

7) Телекоммуникации: Most Efficient Level

8) Сокращение: Master of English Literature, Missile Ejector Launcher, Music Education League, melamine

9) Физиология: Melanoma

10) Вычислительная техника: Maya Embedded Language (Maya)

11) Нефть: mechanical efficiency log, micro electric log

12) Транспорт: Mercury Edsel And Lincoln

13) Экология: maximum exposure limit

14) Деловая лексика: Managing Employment Liability

15) Глоссарий компании Сахалин Энерджи: minimum effect level

16) Образование: Michigan Electronic Library, Midway Elementary Library

17) Безопасность: Mime Encoding Library

18) Электротехника: minimum excitation limiter

19) NYSE. Mellon Financial Corporation

20) Аэропорты: Melbourne, Victoria, Australia

EPG

1) Спорт: Empire Playing Game

2) Военный термин: Enhanced Protective Glass, Erie proving ground, European Planning Group, European Program Group, Exercise Planning Guidance, electronic proving ground, engineering program group, extended planning guidance

3) Техника: electrical power generator, electropneumogram, emergency power generator, emergency procedure guideline

4) Телевидение: электронная программа передач, электронный телегид (от англ. Electronic Program Guide)

5) Сокращение: Engin Principal du Genie (Armoured engineer vehicle (France)), European Programme Group (NATO), Externally Powered Machine Gun

6) Электроника: Electrical Penetration Graph

7) Вычислительная техника: Electronic Programme Guides, External Gateway Protocol

8) СМИ: Electronic Program Guide, Electronic Programming Guide

9) Ядерная физика: Electrostatic Particle Guide

10) Газоперерабатывающие заводы: электрогенератор

11) Электротехника: electric field gradient

12) NYSE. El Paso Energy Corporation of Delaware

ECC

1) Общая лексика: Emergency Co-ordination Centre (SEIC)

2) Компьютерная техника: A Error Correction And Control, Error Correction Circuitry, Error Correction Coding, Error Crc Check

3) Авиация: entertainment control center, Electronic Engine Control, Eurocontrol Experimental Centre

4) Медицина: Усиленная компенсация роговицы (Enchanced Corneal Compensation)

5) Спорт: East Central Conference

6) Военный термин: EXFOR Coordination Cell, Electronic Components Code, Enlisted Classification Code, Enlisted Correspondence Course, Eurasian Communist Countries, European Communist Countries, European Community Commission, European Coordination Committee, Experiment Control Center, emergency combat capability, emergency control center, engineering casualty control, equipment category code, equipment configuration control, error checking and correction

7) Техника: Energy Conservation Council, electronic calibration center, emergency cooling circuit, emergency core cooling, engineering change control, engineering critical component, error check circuitry

8) Химия: Emulsion Cloud Chamber

9) Математика: код с исправлением ошибок (error checking code), обнаружение и исправление ошибок (error checking and correction), помехоустойчивый код (error controlled code)

10) Религия: East Coast Crips, Episcopal Cathedral Church

11) Метеорология: Error Correcting Codewords

12) Автомобильный термин: electronic climate control

13) Дипломатический термин: European Cultural Centre

14) Телекоммуникации: Extended Community Calling, встроенный канал управления (Embedded Control Channel)

15) Сокращение: Economic Council of Canada, Elderly Citizens Club, Error Checking & Correction, Error Control Code, Error Correcting Code, European Coordinating Committee, European Cultural Center, European Cultural Commission, Export Consultants Corp. (USA), Error Correction Code (corrects error in memory or transmission), Electron Coupling Control, Elliptic Curves Cryptography, Error Checking and Correcting Memory

16) Университет: Error Correction And Checking

17) Физика: Engineered Cementitious Composites

18) Физиология: Emergency Cardiac Care, Enteric Coated Capsule, External Cardiac Compressions, Extracorporeal Circulation

19) Электроника: Error Correction Circuit

20) Вычислительная техника: embedded control channel, error correction code, experimental computer complex, extended character code, Electrical Connectivity Checks (CAD), Error Correction Circuit (CPU, POWER), Elliptic Curve Cryptosystem (Certicom, Verschluesselung), Error Correction Code (corrects error in memory or transmission), error checking and correcting, расширенный код символа, экспериментальный вычислительный комплекс

21) Нефть: emergency control centre

22) Экология: Environmental Contaminants Committee

23) Образование: Early Childhood Consultant

24) Сетевые технологии: Elliptic Curve Cryptography, error checking and control, error checking capability, error-correcting code, возможность контроля ошибок, корректирующий код

25) Программирование: диаграмма управления выполнением (см. Execution Control Chart), диаграмма ECC

26) Телефония: Extended Call Context

27) Сахалин Р: Emergency Command Centres

28) Химическое оружие: explosive containment cubicle

29) Макаров: emergency core coolant, захват электрона континуумом

30) Безопасность: Electronic Check Conversion, Elliptic Curve Cryptosystem, Error Checking Code

31) Расширение файла: Elliptic Curve Crypto, Error Check Code

32) Нефть и газ: Emergency Communications Center

33) Электротехника: electric control center, electrical continuous cloth

34) Высокочастотная электроника: embedded communication channel

35) Должность: European Clinical Chemist

36) NYSE. E C C International Corporation

37) Программное обеспечение: Error Checking Correcting

ENMC

1) Нефть: power system electrical network monitoring and control system

2) Глоссарий компании Сахалин Энерджи: Electrical Network Monitoring & Control (system), Electrical Network Monitoring and Control System, electric network monitoring control system

3) Сахалин Р: Electrical Network Monitoring & Control

4) НАСДАК: Encore Medical Corporation

NEP

1) Компьютерная техника: Never Ending Program

2) Морской термин: North-East Passage (историческое название Северного морского пути, более привычное для европейцев), Северо-Восточный проход

3) Медицина: нейтральная эндопептидаза (neutral endopeptidase), негативное экспираторное давление

4) Американизм: New Economic Policy

5) Военный термин: NATO exercise program, new equipment practice, nuclear earth penetration, nuclear electromagnetic pulse

6) Техника: near field pattern, nuclear electric propulsion

7) Оптика: noise equivalent power

8) Русский язык: нэп

9) Телекоммуникации: No Exchange Provided

10) Сокращение: Nepali, Nuclear Earth Penetration programme (USA)

11) Нефть: net effective pay, суммарные извлекаемые запасы (net effective pay)

12) Биохимия: Nerve Ending Particles

13) Образование: New Education Policy, Non English Proficient

14) Сетевые технологии: network entry point, точка входа в сеть

15) Правительство: North East Pensacola

16) AMEX. Northeast Pennsylvania Financial Corporation

Nep

1) Компьютерная техника: Never Ending Program

2) Морской термин: North-East Passage (историческое название Северного морского пути, более привычное для европейцев), Северо-Восточный проход

3) Медицина: нейтральная эндопептидаза (neutral endopeptidase), негативное экспираторное давление

4) Американизм: New Economic Policy

5) Военный термин: NATO exercise program, new equipment practice, nuclear earth penetration, nuclear electromagnetic pulse

6) Техника: near field pattern, nuclear electric propulsion

7) Оптика: noise equivalent power

8) Русский язык: нэп

9) Телекоммуникации: No Exchange Provided

10) Сокращение: Nepali, Nuclear Earth Penetration programme (USA)

11) Нефть: net effective pay, суммарные извлекаемые запасы (net effective pay)

12) Биохимия: Nerve Ending Particles

13) Образование: New Education Policy, Non English Proficient

14) Сетевые технологии: network entry point, точка входа в сеть

15) Правительство: North East Pensacola

16) AMEX. Northeast Pennsylvania Financial Corporation