electrical size

electrostatic particle-size analyzer

Electrical engineering: EPSA

электрическая длина

electrical size

электрическая длина

1. electrical size
2. electrical length

 

электрическая длина
—
[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва, 1999 г.]

Тематики

• электротехника, основные понятия

EN

• electrical length
• electrical size

электрическая длина

electrical distance, electrical size, (в градусах, радианах или длинах волн) electrical length

* * *

pase length

электрическая длина

1) Engineering: electrical distance, electrical length, electrical size

2) Electronics: radian length

3) Makarov: angular distance, electric length (линии передачи), electrical length (в градусах, радианах или длинах волн), phase length (линии передачи), phase-path length (линии передачи)

электрическая длина

angular distance, electrical distance, (в градусах, радианах или длинах волн) electrical length, electrical size

электрическая длина

angular distance, electrical distance, (в градусах, радианах или длинах волн) electrical length, electrical size

электрический размер

Microelectronics: electrical size

электрическая длина

1) ( антенны) electric(al) length

2) electrical size

электрический анализатор размера частиц аэрозолей

1. electrical analyzer of size of aerosols
2. EASA

 

электрический анализатор размера частиц аэрозолей
—
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]

Тематики

• энергетика в целом

EN

• electrical analyzer of size of aerosols
• EASA

отношение крутизны частотной характеристики системы АРЧМ района, где произошло возмущение, к крутизне частотной характеристики энергообъединения

Electrical engineering: size ratio

резьба сальника кабельного ввода

Electrical engineering: gland size

типоразмер (выключателя)

Electrical engineering: frame size (согласно ГОСТ Р 50030.2-99)

punto de luz

(n.) = power point, electrical outlet, socket outlet, outlet

Ex. Many libraries provide carrels equipped with power points so that audio-visual equipment can be used.

Ex. School classrooms are sometimes extraordinarily badly designed with poor acoustics, ineffective blackout facilities, and notoriously eccentric electrical outlets.

Ex. Heavy-current electrical appliances (e.g. washers/dryers, dehumidifiers and electric kettles) should be supplied from individual socket outlets.

Ex. The archictet's brief specifies that conduit (of sewer pipe size if possible) should be provided for electrical wiring with outlets placed in the ceiling every metre.

* * *

(n.) = power point, electrical outlet, socket outlet, outlet

Ex: Many libraries provide carrels equipped with power points so that audio-visual equipment can be used.

Ex: School classrooms are sometimes extraordinarily badly designed with poor acoustics, ineffective blackout facilities, and notoriously eccentric electrical outlets.

Ex: Heavy-current electrical appliances (e.g. washers/dryers, dehumidifiers and electric kettles) should be supplied from individual socket outlets.

Ex: The archictet's brief specifies that conduit (of sewer pipe size if possible) should be provided for electrical wiring with outlets placed in the ceiling every metre.

toma eléctrica

(n.) = outlet, socket, electrical outlet

Ex. The archictet's brief specifies that conduit (of sewer pipe size if possible) should be provided for electrical wiring with outlets placed in the ceiling every metre.

Ex. One must also not forget the need for television aerials and the related sockets.

Ex. School classrooms are sometimes extraordinarily badly designed with poor acoustics, ineffective blackout facilities, and notoriously eccentric electrical outlets.

* * *

(n.) = outlet, socket, electrical outlet

Ex: The archictet's brief specifies that conduit (of sewer pipe size if possible) should be provided for electrical wiring with outlets placed in the ceiling every metre.

Ex: One must also not forget the need for television aerials and the related sockets.

Ex: School classrooms are sometimes extraordinarily badly designed with poor acoustics, ineffective blackout facilities, and notoriously eccentric electrical outlets.

sistema de cables eléctricos

(n.) = electrical wiring

Ex. The architect's brief specifies that conduit (of sewer pipe size if possible) should be provided for electrical wiring with outlets placed in the ceiling every metre.

* * *

(n.) = electrical wiring

Ex: The architect's brief specifies that conduit (of sewer pipe size if possible) should be provided for electrical wiring with outlets placed in the ceiling every metre.

toma de corriente

toma de corriente

power point

* * *

(wall) socket, power point (BrE)

* * *

(n.) = outlet, socket, socket outlet, light socket

Ex. The archictet's brief specifies that conduit (of sewer pipe size if possible) should be provided for electrical wiring with outlets placed in the ceiling every metre.

Ex. One must also not forget the need for television aerials and the related sockets.

Ex. Heavy-current electrical appliances (e.g. washers/dryers, dehumidifiers and electric kettles) should be supplied from individual socket outlets.

Ex. In olden days, women of ill-repute would put a red light bulb in their front porch light socket.

* * *

(wall) socket, power point (BrE)

* * *

(n.) = outlet, socket, socket outlet, light socket

Ex: The archictet's brief specifies that conduit (of sewer pipe size if possible) should be provided for electrical wiring with outlets placed in the ceiling every metre.

Ex: One must also not forget the need for television aerials and the related sockets.

Ex: Heavy-current electrical appliances (e.g. washers/dryers, dehumidifiers and electric kettles) should be supplied from individual socket outlets.

Ex: In olden days, women of ill-repute would put a red light bulb in their front porch light socket.

* * *

toma de corriente

outlet, Br

socket

toma de luz

(n.) = outlet, power point, socket, socket outlet

Ex. The archictet's brief specifies that conduit (of sewer pipe size if possible) should be provided for electrical wiring with outlets placed in the ceiling every metre.

Ex. Many libraries provide carrels equipped with power points so that audio-visual equipment can be used.

Ex. One must also not forget the need for television aerials and the related sockets.

Ex. Heavy-current electrical appliances (e.g. washers/dryers, dehumidifiers and electric kettles) should be supplied from individual socket outlets.

* * *

(n.) = outlet, power point, socket, socket outlet

Ex: The archictet's brief specifies that conduit (of sewer pipe size if possible) should be provided for electrical wiring with outlets placed in the ceiling every metre.

Ex: Many libraries provide carrels equipped with power points so that audio-visual equipment can be used.

Ex: One must also not forget the need for television aerials and the related sockets.

Ex: Heavy-current electrical appliances (e.g. washers/dryers, dehumidifiers and electric kettles) should be supplied from individual socket outlets.

тонкостенная металлическая труба для электропроводки

1. intermediate metal conduit
2. IMC
3. EMT
4. electrical metallic tubing

 

тонкостенная металлическая труба для электропроводки
-

EN

electrical metallic tubing
A thin-walled metal raceway having a circular cross section; used to pull in or withdraw electric cables or wires after the tubing is installed in place; uses connectors and couplings other than the threaded type.
[ http://www.answers.com/topic/electrical-metallic-tubing-1]

intermediate metal conduit
IMC
-

Intermediate metal conduit, or IMC for short, is a rigid steel electrical conduit that is lighter in weight than another rigid conduit. It was designed specifically to protect insulated electrical conductors and cables. It does the work of a similar conduit, galvanized rigid conduit (GRC), but with much less weight and thickness size. By utilizing IMC in areas allowed, you can all but eliminate the need for a heavier wall conduit.

IMC has other advantages over GRC. It has a larger interior diameter than Galvanized Rigid Conduit and the smoother interior of the pipe allows for easier wire pulling through the conduit.

IMC was originally introduced by Allied Tube & Conduit Corporation. It is manufactured in accordance with Underwriters’ Laboratories safety standard 1242 and ANSI C80.6. Believe it or not, Allied claims that IMC is actually more rigid than GRC in applications such as service masts and other installations. It has been installed in industrial and commercial buildings. In fact, the National Electrical Code has a specific article about IMC, article 342.

IMC conduit is coated in a hot galvanized coating on the exterior and a special corrosive-resistant coating on the inside to extend the conduit’s lifespan for reliability. Common conduit sizes range from ½” to 4”.

[ http://electrical.about.com/od/metalpvcconduit/a/IMCconduit.htm]

Тематики

• электропроводка, электромонтаж

EN

• electrical metallic tubing
• EMT
• IMC
• intermediate metal conduit

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