use frequency analysis

use frequency analysis

Техника: анализ используемой частоты

UFA

use frequency analysis - анализ используемой частоты

UFA

1) Американизм: Umbrella Final Agreement

2) Техника: use frequency analysis

3) Религия: Unreal Fallin Angel

4) Грубое выражение: U Fucking Asshole!, Unidentified Flying Asshole

5) Цитология: Ultraviolet A

6) Биохимия: Unesterified Fatty Acids

7) Транспорт: Until Further Advised

8) Фирменный знак: Unfinished Furniture Association

9) Химическое оружие: munition unpacking unit, unpack area

10) Расширение файла: UFA Compressed file archive

11) Хоккей: cвободный агент (Unrestricted Free Agent)

12) Общественная организация: United Fathers of America

13) Аэропорты: Ufa, Russia

14) ГОСТ: uniform field area (IEC 61000-4-3, ed. 3.0 (2006-02))

Ufa

1) Американизм: Umbrella Final Agreement

2) Техника: use frequency analysis

3) Религия: Unreal Fallin Angel

4) Грубое выражение: U Fucking Asshole!, Unidentified Flying Asshole

5) Цитология: Ultraviolet A

6) Биохимия: Unesterified Fatty Acids

7) Транспорт: Until Further Advised

8) Фирменный знак: Unfinished Furniture Association

9) Химическое оружие: munition unpacking unit, unpack area

10) Расширение файла: UFA Compressed file archive

11) Хоккей: cвободный агент (Unrestricted Free Agent)

12) Общественная организация: United Fathers of America

13) Аэропорты: Ufa, Russia

14) ГОСТ: uniform field area (IEC 61000-4-3, ed. 3.0 (2006-02))

Kennelly, Arthur Edwin

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

[br]

b. 17 December 1871 Colaba, Bombay, India

d. 18 June 1939 Boston, Massachusetts, USA

[br]

Anglo-American electrical engineer who predicted the ionosphere and developed mathematical analysis for electronic circuits.

[br]

As a young man, Kennelly worked as office boy for a London engineering society, as an electrician and on a cable-laying ship. In 1887 he went to work for Thomas Edison at West Orange, New Jersey, USA, becoming his chief assistant. In 1894, with Edwin J.Houston, he formed the Philadelphia company of Houston and Kennelly, but eight years later he took up the Chair of Electrical Engineering at Harvard, a post he held until his retirement in 1930. In 1902 he noticed that the radio signals received by Marconi in Nova Scotia from the transmitter in England were stronger than predicted and postulated a reflecting ionized layer in the upper atmosphere. Almost simultaneously the same prediction was made in England by Heaviside, so the layer became known as the Kennelly-Heaviside layer. Throughout most of his working life Kennelly was concerned with the application of mathematical techniques, particularly the use of complex theory, to the analysis of electrical circuits. With others he also contributed to an understanding of the high-frequency skin-effect in conductors.

[br]

Principal Honours and Distinctions

President, American Institute of Electrical Engineers 1898–1900. President, Institution of Electrical Engineers 1916. Institute of Electrical and Electronics Engineers Medal of Honour 1932; Edison Medal 1933.

Bibliography

1915, with F.A.Laws \& P.H.Pierce "Experimental research on the skin effect in conductors", Transactions of the American Institute of Electrical Engineers 34:1,953.

1924, Hyperbolic Functions as Applied to Electrical Engineering.

1924, Check Atlas of Complex Hyperbolic \& Circular Functions (both on mathematics for circuit analysis).

Further Reading

K.Davies, 1990, Ionospheric Radio, London: Peter Peregrinus. See also Appleton, Sir Edward Victor.

KF

fundamental

adjective

grundlegend (to für); elementar [Bedürfnisse]; (primary, original) Grund[struktur, -form, -typus]

* * *

1. adjective

(of great importance; essential; basic: Respect for law and order is fundamental to a peaceful society.) grundlegend

2. noun

(a basic or essential part of any thing: Learning to read is one of the fundamentals of education.) die Grundlage

- academic.ru/29886/fundamentally">fundamentally

* * *

fun·da·men·tal

[ˌfʌndəˈment^əl, AM -t̬^əl]

adj grundlegend

▪ to be \fundamental to doing sth für etw akk unabdingbar sein

\fundamental difference wesentlicher Unterschied

to be of \fundamental importance to sth für etw akk von zentraler Bedeutung sein

\fundamental issues Hintergrunddaten pl

\fundamental need/principle/right Grundbedürfnis nt/-prinzip nt/-recht nt

\fundamental problem grundsätzliches [o grundlegendes] Problem

\fundamental question entscheidende Frage

\fundamental research [or analysis] Grundlagenforschung f

\fundamental tenet zentraler Lehrsatz

* * *

["fʌndə'mentl]

1. adj

1) (= essential) issue, question, concept grundlegend; reason eigentlich; point zentral; feature, part wesentlich

fundamental principle/right/beliefs — Grundprinzip nt/-recht nt/-überzeugungen pl

fundamental mathematical concepts — Grundbegriffe pl der Mathematik

of fundamental importance — von grundlegender Bedeutung

carbon is fundamental to life —

fundamental to impressionism was the use of bright colours — die Verwendung von leuchtenden Farben war grundlegend für den Impressionismus

2) (= basic) problem, difference, contradiction grundsätzlich; (= basic and deep) change, revolution, shift grundlegend, umwälzend; (= elementary) mistake, error, flaw grundlegend, fundamental

I don't doubt his fundamental goodness — ich zweifle nicht daran, dass er im Grunde ein guter Mensch ist

his fundamental ignorance of this subject — seine fundamentale Unkenntnis auf diesem Gebiet

fundamental structure/form — Grundstruktur f/-form f

fundamental research — Grundlagenforschung f

3) (MUS) Grund-

fundamental note/frequency — Grundton m/-frequenz f

2. pl

fundamentals (of subject) — Grundbegriffe pl; (of a problem) Grundlagen pl

the fundamentals of physics — die Grundbegriffe pl der Physik

to get down to (the) fundamentals — bis zu den Grundlagen vordringen

* * *

fundamental [ˌfʌndəˈmentl]

A adj (adv → fundamentally)

1. als Grundlage dienend, grundlegend, wesentlich, fundamental (to für), Haupt…

2. grundsätzlich, elementar

3. Grund…, Fundamental…:

fundamental bass → B 2 b;

fundamental colo(u)r Grundfarbe f;

fundamental data grundlegende Tatsachen;

fundamental freedoms Grundfreiheiten pl;

fundamental frequency ELEK Grundfrequenz f;

fundamental idea Grundbegriff m;

fundamental law MATH, PHYS Hauptsatz m;

fundamental particle PHYS Elementarteilchen n;

fundamental research Grundlagenforschung f;

fundamental tone → B 2 a;

fundamental type BIOL Grundform f

B s

1. Grundlage f, -prinzip n, -begriff m, pl auch Grundzüge pl, Fundament n

2. MUS

a) Grundton m

b) Fundamentalbass m

3. PHYS Fundamentaleinheit f

4. ELEK Grundwelle f

* * *

adjective

grundlegend (to für); elementar [Bedürfnisse]; (primary, original) Grund[struktur, -form, -typus]

* * *

adj.

grundlegend adj.

grundsätzlich adj.

factor

1) фактор

2) сомножитель
3) факториальный
4) факторный
5) воздействие
6) коэффициент
7) соображение
8) показатель
9) условие
10) особенность
11) разлагаться на множители
12) факторизовать
13) агент
14) умножитель
– absorption factor
– aha factor
– amplification factor
– amplitude factor
– anamorphosing factor
– assymmetry factor
– audibility factor
– availability factor
– barrier factor
– blasting factor
– blocking factor
– bulk factor
– capacity factor
– circulating factor
– common factor
– compressibility factor
– constant factor
– control factor
– conversion factor
– correction factor
– coupling factor
– crest factor
– damping factor
– daylight factor
– deflection factor
– degeneration factor
– demagnetizing factor
– demand factor
– depolarizing factor
– determining factor
– dimensionless factor
– direct factor
– dissipation factor
– distortion factor
– divergence factor
– diversity factor
– dryness factor
– duty factor
– efficiency factor
– emissitivity factor
– engagement factor
– expansion factor
– exponential factor
– factor analysis
– factor group
– factor matrix
– factor module
– factor of a model
– factor of merit
– factor of subdivision
– factor out
– factor set
– factor space
– feedback factor
– field-form factor
– filter factor
– flare factor
– flicker factor
– force factor
– form factor
– fouling factor
– gage factor
– gas amplification factor
– gas factor
– gas yield factor
– general factor
– gradation factor
– gust factor
– human factor
– integrating factor
– interaction factor
– interlace factor
– klirr factor
– lamination factor
– literal factor
– load factor
– loading factor
– loss factor
– luminance factor
– mismatching factor
– modulation factor
– multiplication factor
– multiplicity factor
– multiplying factor
– noise factor
– noise factor
– normalization factor
– numerical factor
– overcorrection factor
– packing factor
– pattern-propagation factor
– penetration factor
– phase factor
– pitch factor
– power factor
– prime factor
– propagation factor
– proportionality factor
– pumping factor
– R factor
– reactance factor
– readiness factor
– rectification factor
– reduction factor
– reheat factor
– relaxation factor
– replication factor
– ripple factor
– roughness factor
– safety factor
– scale factor
– selectivity factor
– shadow factor
– shape factor
– shrinkage factor
– silt factor
– skew factor
– space factor
– stabilization factor
– stacking factor
– stadia factor
– steric factor
– strength factor
– symmetry factor
– synchronization factor
– to factor
– transition factor
– transmission factor
– transport factor
– travelling-wave factor
– turbidity factor
– twist factor
– use factor
– utilization factor
– variable factor
– variation factor
– visibility factor
– void factor
– weighting factor
– wobble factor

acoustic reduction factor — <acoust.> коэффициент звукоизоляции

atomic scattering factor — атомный множитель

base transport factor — <phys.> коэффициент переноса

circulation multiplicity factor — <engin.> кратность циркуляции

deviation reduction factor — <comput.> коэффициент уменьшения отклонения

dielectric dissipation factor — тангенс угла диэлектрических потерь

dielectric loss factor — <electr.> коэффициент диэлектрических энергопотерь

emergency outage factor — <engin.> коэффициент аварийного простоя

field form factor — <electr.> коэффициент поля

frequency force factor — <electr.> коэффициент силовой частоты

Gaunt correction factor — множитель поправочный гаунтовский

gust load factor — перегрузка от порывов ветра

highest common factor — общий наибольший делитель

integrated house-building factor — домостроительный комбинат

labor participation factor — коэффициент трудового участия

lateral load factor — поперечная перегрузка

load factor method — метод запаса прочности

longitudinal load factor — продольная перегрузка

maneuver load factor — маневренная перегрузка

nonlinear distortion factor — <electr.> клиррфактор

normal load factor — нормальная перегрузка

phase-angle correction factor — <tech.> коэффициент поправочный угловой

plane earth factor — < radio> коэффициент плоской земли

present in factor form — разлагать на множитель

proportional control factor — <comput.> коэффициент пропорционального регулирования

pulse duty factor — <electr.> коэффициент импульсного цикла

pump modulation factor — <phys.> коэффициент модуляции активной проводимости

reset factor of a relay — коэффициент отпускания реле

safety factor for dropout — <comput.> коэффициент запаса при отпускании

safety factor for pickup — <comput.> коэффициент запаса при срабатывании

scale factor coefficient — масштабный коэффициент

spherical earth factor — < radio> коэффициент шарообразной Земли

statistical weight factor — статистический множитель

strain sensitivity factor — <tech.> коэффициент тензочувствительности

test compression factor — <comput.> коэффициент сжатия тестов

thermal stability factor — коэффициент температурной стабильности

transverse load factor — <engin.> перегрузка поперечная

turbine load factor — коэффициент загрузки турбины

reliability centered maintenance

Ops

a maintenance system that focuses on ensuring equipment is always functioning reliably. Reliability centered maintenance involves assessing each piece of equipment or other asset individually and in the context of how it is being used, for example, frequency of use and volume of output. Analysis is made of its weak points and a preventive maintenance schedule is drawn up taking them into account.