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1 maximum dry power
максимальная бесфорсажная тяга; максимальная мощность без впрыскаEnglsh-Russian aviation and space dictionary > maximum dry power
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2 power
мощность; энергия; сила; производительность; тяга ( реактивного двигателя) ; эффективность ( руля) ; питание; увеличение ( оптики) ; приводить в действие; питать ( энергией) ; служить источником энергии для движения; создавать тягу; оснащать двигателями; силовойboundary layer control power — мощность системы УПС [управления пограничным слоем]
Dash-1 power — разг. номинальная мощность или тяга; бесфорсажный режим
Dash-2 power — разг. максимальная мощность или тяга; форсажный режим
Dash-2-wet power — разг. максимальная тяга с впрыском воды или водно-спиртовой смеси; форсажный режим с впрыском
get on the power — увеличивать мощность или тягу, давать газ
set power against the brakes — давать газ, оставаясь на тормозах
start the power up — дв. начинать прибавлять газ [увеличивать обороты]
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3 power
power nмощностьaccessory power systemсистема энергопитания оборудованияadjust idle powerрегулировать малый газaft power nacelleхвостовая часть гондолы двигателяaircraft power reductionуменьшение мощности двигателей воздушного суднаaircraft power supplyбортовой источник электропитанияasymmetric engines powerасимметричная тяга двигателейat idle powerна режиме малого газаattain the powerдостигать заданной мощностиaugmented powerфорсированный режимaugment powerфорсировать мощностьauxiliary power supplyвспомогательный источник энергопитанияauxiliary power unitвспомогательная силовая установкаbearing powerнесущая способностьbest economy powerоптимальный режимbus power failureотказ бортовой электрошиныchop the powerвнезапно изменять режимclimbing powerмощность, необходимая для набора высотыcome to takeoff powerвыходить на взлетный режимcontingency powerмощность на чрезвычайном режимеcruising powerкрейсерская мощностьdevelop powerразвивать мощностьdraw powerпередавать мощностьdry powerмощность без впрыска водыelectrical power sourceисточник электропитанияelectric power cartэлектротележкаemergency power supplyаварийный источник энергопитанияemergency power systemсистема аварийного энергопитанияequivalent shaft powerэквивалентная мощность на валуexcess powerизбыточная мощностьexternal electrical powerаэродромное электропитаниеexternal electrical power systemсистема аэродромного электропитанияexternal power connectorразъем аэродромного питанияexternal power not availableаэродромное питание отсутствуетexternal power receptacleразъем аэродромного питанияexternal power relayреле включения внешнего питанияflight idle powerмощность на режиме полетного малого газаfree power turbineсвободная турбинаfull power conditionsмаксимальный режимgain the powerдостигать заданной мощностьgas turbine power plantгазотурбинная силовая установкаground power unitаэродромный пусковой агрегатhydraulic power cylinderгидравлический силовой цилиндрidle power ratingрежим малого газаinduced drag powerмощность на преодоление аэродинамического сопротивленияlifting powerподъемная сила(lift force, lift, ascensional force, buoyancy) maximum continuous powerноминальный режимmove under own powerдвигаться за счет собственной тягиoutput powerвыходная мощностьoutside power unitвнешний источник питанияpneumatic power cylinderпневматический силовой цилиндрpower augmentationфорсирование мощностиpower augmentation controlуправление форсажемpower calibrationтарировка мощностиpower cylinderсиловой цилиндрpower fail relayреле сигнализации отказа питанияpower indicatorуказатель мощностиpower marginзапас мощностиpower offубрать режимpower outputвыходная мощностьpower patrol operationпатрулирование линий электропередач с воздухаpower plantсиловая установкаpower recovery turbineтурбина с приводом от выхлопных газовpower reduction operationуменьшение мощностиpower reversal ejectorотражатель в механизме реверса тягиpower settingустановка мощности(двигателя) power shaftвал приводаpower sourceгенераторpower spinштопор при работающих двигателяхpower strokeрабочий ход(поршня) power supply circuitцепь подачи питанияpower taking-offпроцесс отбора мощностиpower the busвключать шинуpower unitсиловой агрегатprofile drag powerмощность на преодоление профильного сопротивленияprovide powerвыдавать мощностьrated powerноминальная мощностьreheat powerфорсажный режимrequired powerпотребная мощностьrun at idle powerработать на режиме малого газаsecondary power supplyрезервный источник энергопитанияset idle powerвыводить на режим малого газаset takeoff powerустанавливать взлетный режимsound powerзвуковая мощностьspecific powerудельная мощностьstandby power unitзапасной агрегатstarting on external powerзапуск от внешнего источникаtakeoff powerвзлетная мощностьtake off power to the shaftотбирать мощность на валthrust powerтяговая мощностьtransmission power inputмощность, поступающая на вал трансмиссииtransmit powerпередавать мощностьwith rated power flightполет на номинальном расчетном режиме -
4 power
1. мощность/ мощный2. энергия/ энергетический3. тяга <реактивного двигателя, винта>4. эффективность < органа управления>5. сила/ силовой/ приводить в действие6. степень; показатель степени7. способность9. питание; источник питанияpower availablepower required30-minute poweraccelerating poweracoustic poweraileron control powerantitorque powerantispin control powerasymmetric poweravailable poweravailable control powerbattery powerbreakaway powerbuilt-in powercanard powercanard control powerclimb powercompressor powercomputational powercontrol powercruise powerDC powerdirect powerdrag powerdry powerelectric powerelectrical powerengine topping powerexcess climb power per unit of weightexcess specific powerexcess thrust power per unit weightexplosive powerextension powerfighter powerflat-rated powerfluid powerfull dry powerfull-rated powerfuselage powergated powergo-around powerhover powerhovering powerhydraulic powerinduced powerinstalled powerinterference powerintermediate powerintermediate contingency powerjamming powerlifting powerlongitudinal control powermarginal control powermax powermaximum powermaximum afterburner powermaximum contingency powermaximum continuous powermechanical powermil powermilitary powernose-down powernose-down control powernose-up control poweroutput powerparasite powerpitch powerpitch control powerpneumatic powerprofile powerprofile-drag powerpropeller powerradiated powerrequired powerroll powerroll control powerrolling powerrudder powerrudder control powersea-based air powershaft powersound powerspecific powerspecific excess powerspecified powersymmetric powertail control powertailplane powertakeoff powertakeoff rated powerthermal powerthrust powertransmission powerturbine powerturboprop poweryaw power -
5 power
1) мощность2) энергия || снабжать энергией4) источник энергии || служить источником энергии5) матем. степень; показатель степени6) способность; возможность•to adjust idle power — возд. регулировать режим малого газа ( двигателя);to augment power — возд. форсировать мощность ( двигателя);to set idle power — возд. выводить ( двигатель) на режим малого газа;to set takeoff power — возд. устанавливать взлётный режим ( работы двигателей)-
absorbed power
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ac power
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accepted power
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acoustic power
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active power
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actual power
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adhesion power
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antenna power
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apparent power
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arc power
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ash slagging power
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asphalt-retaining power
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atomic power
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attractive power
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auxiliary power
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available power
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average power
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backscattered power
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binding power
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bleaching power
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brake power
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brake retarding power
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brake stopping power
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braking power
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breakout power
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bulking power
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burnout power
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caking power
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calculated power
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calorific power
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caloric power
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carrier power
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carrying power
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cementing power
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central power
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chemical power
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chemical reaction power
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coking power
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coloring power
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complex power
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computer power
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computing power
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consumed power
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contingency takeoff power
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conventional power
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cooling power
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corona loss power
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covering power
-
crowding power
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cruising power
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cutting power
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dc power
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decay power
-
delivered power
-
deoxidizing power
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design power
-
detergent power
-
diesel motive power
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digging power
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dispersive power
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dissipated power
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dissolving power
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drag power
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dragging power
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drawbar power
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drawing power
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drive power
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drive train power
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driving power
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dry power
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drying power
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economy power
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effective power
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effective radiated power
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electric motive power
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electrical power
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electric power
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eluting power
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elution power
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elutive power
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emergency power
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emulsifying power
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engine brake power
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engine continuous brake power
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engine corrected power
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engine gross power
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engine indicated power
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engine intermittent brake power
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engine maximum brake power
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engine net power
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engine observed power
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engine peak brake power
-
engine power
-
engine rated brake power
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equivalent noise power
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equivalent radiated power
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excess noise power
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excess power
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excitation power
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extractive power
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fault power
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feedthrough power
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felting power
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firing power
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firm power
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fluid power
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flywheel power
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foaming power
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focal power
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forward power
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fractional power
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friction power
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generating station auxiliary power
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grammar power
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gripping power
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hair-wave power
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hardening power
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hauling power
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heat power
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hiding power
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holding power
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hot full power
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hot zero power
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hovering power
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hydraulic power
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hydroelectric power
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hydro power
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idle power
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illumination power
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imaginary power
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in-band power
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incident power
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induced drag power
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initial power
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input power
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installed power
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instantaneous power
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insulating power
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integral power
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interchange power
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interference power
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intermodulation product power
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interruptible power
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ionizing power
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jet power
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laser output power
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laser power
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lens power
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leveling power
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lifting power
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light power
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light-gathering power
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like powers
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load diversity power
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load power
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lubricating power
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luminous power
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magnet power
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magnifying power
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mains power
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main power
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man power
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maximum continuous power
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mean fluctuation power
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mechanical power
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melting-down power
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minimum firing power
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motive power
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natural power
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net power
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no-break power
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noise power
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nominal power
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noninterruptible power
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normalized power
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nuclear power
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objective power
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off-peak power
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oil absorption power
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on-peak power
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operating power
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optical power
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out-of-band power
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output power
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peak envelope power
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peak power
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penetrating power
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photovoltaic power
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pneumatic power
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polymerizing power
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polyphase power
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power of test
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power takeoff power
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prime power
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processing power
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profile drag power
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propagation power
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psophometric power
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pull-in power
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pulling power
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pull-out power
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pulse power
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pumping power
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purchased power
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quenching power
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radiant power
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radiated power
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radiation power
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radio-frequency power
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rated power
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reactive power
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real power
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reducing power
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reflected power
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reflecting power
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refrigerating power
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relative power
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required power
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reserve power
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resolution power
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returned power
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road power
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saturation power
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scattered power
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shaft power
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short-circuit power
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signal power
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slip power
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solar array power
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solution power
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sorptive power
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sound power
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space power
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space resolving power
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specific power
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spill power
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spillover power
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spring power
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staining power
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standby power
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steam power
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steaming power
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stopping power
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storage power
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sudsing power
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supplied power
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surplus power
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switch power
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synchronizing power
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takeoff power
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tapping power
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tensorial power
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thermal power
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thermoelectric power
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thermonuclear fusion power
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thickening power
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third-rail power
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threshold power
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throughput power
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thrust power
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tidal power
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total power
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towing power
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traction power
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tractive power
-
true power
-
unconventional power
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unintentional power
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unit power
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useful power
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vector power
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washing power
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wasted power
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wattless power
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wetting power
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wind power
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withdrawing power -
6 power
power off! — «убрать режим!» (команда в полёте)
to de- velop power — развивать мощность;
to move under own power — двигаться за счёт собственной тяги;
to set takeoff power — устанавливать взлётный режим;
to take off power to the shaft — отбирать мощность на вал (напр. трансмиссии вертолёта)
— to augment power— to draw power— to provide power— to transmit power -
7 density
1) плотность; концентрация•-
acceptor density
- actual flux density -
actual tooth density
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air density
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aircraft seating density
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air-gap flux density
-
ambient density
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ampere density
-
apparent density
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apparent gap density
-
areal data density
-
areal-packing density
-
areal-recording density
-
atomic density
-
average density
-
base density
-
batch density
-
Baume density
-
bit density
-
bulk density
-
buoyant density
-
carrier density
-
channel density
-
character density
-
charge density
-
circuit density
-
color density
-
component density
-
contact density
-
coolant density
-
crack density
-
critical density
-
crop density
-
crosslink density
-
crown density
-
current density
-
data density
-
density of charge
-
density of distribution
-
density of gap states
-
density of load
-
density of passenger traffic
-
density of seams
-
density of states
-
density of undergrowth
-
density of vulcanization network
-
density of wood
-
dew-point density
-
dielectric flux density
-
dielectric density
-
diffuse density
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dislocation density
-
displacement current density
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distortion energy density
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donor density
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doping density
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drainage density
-
dry density
-
electric displacement density
-
electrolyte density
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electromagnetic energy density
-
electrostatic flux density
-
energy density
-
energy-flux density
-
equilibrium density
-
equivalent neutral density
-
equivalent density
-
excess density
-
failure density
-
fallout density
-
field density
-
fin density
-
fission density
-
fixed charge density
-
flux density
-
fog density
-
forest density
-
Fourier density
-
freely settled density of catalyst
-
freight traffic density
-
functional density
-
function density
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gamma density
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gap density
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gravimetric energy density
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green-packing density
-
heat-flux density
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helium density of catalyst
-
highlight film density
-
housing density
-
image density
-
impurity density
-
induction density
-
information density
-
integration density
-
interfacial area density
-
ionization density
-
level density
-
linear density
-
linear power density
-
linearly data density
-
linearly packing density
-
linearly recording density
-
load density
-
lowlight film density
-
luminous density
-
luminous flux density
-
magnetic flux density
-
magnetic moment density
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maximum commodity density
-
maximum dry density
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mercury density of catalyst
-
mixture density
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moderator density
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needle density
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network density
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neutral density
-
neutron-flux density
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noise power spectral density
-
noise spectral density
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nonequilibrium carrier density
-
nonuniform density
-
nuclear density
-
nuclear-level density
-
optical density
-
packaging density
-
packed density
-
photocurrent density
-
photographic density
-
pinch density
-
plasma density
-
pollution density
-
population density
-
power density
-
power flux density
-
power spectral density
-
printing density
-
probability density
-
product density
-
radiant density
-
radiant flux surface density
-
radiant flux density
-
real density of catalyst
-
recording density
-
reflected flux density
-
reflection density
-
relative density
-
remanent flux density
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saturation current density
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selective density
-
separation density
-
setting density
-
slowing-down density
-
solar radiant flux density
-
sound-energy density
-
sound-energy-flux density
-
space charge density
-
spectral density
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stacking density
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stitch density
-
storage density
-
stowing density
-
strain energy density
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submerged density of soil
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supercurrent density
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support density
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surface density
-
target density
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thermal-power density
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threshold current density
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track density
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traffic density
-
train density
-
transition density
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transverse density
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vapor density
-
variable density
-
volume density of electric charge
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volumetric energy density
-
well spacing density
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well density
-
wet bulk density
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winding density
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writing density -
8 range
дальность (действия, полёта, стрельбы) ; дистанция; диапазон;, ( ракетный) полигон; трасса ( полигона) ; ( зональный) радиомаяк;: комплект; колебание; амплитуда;, шкала; изменять(ся) в диапазоне (от... до...) ; определять расстояние: ( до цели) ; пристреливать по дальности; колебаться (в определённых: пределах) ; классифицироватьat a range (of) — на дальности...
decelerate into the low supersonic range — тормозиться [снижать, скорость] до (области) небольших сверхзвуковых скоростей
equivalent still air range — эквивалентная [теоретическая] штилевая дальность полёта (без учёта гонки двигателей, руления, взлета, набора высоты, снижения, посадки и резерва топлива)
fly down the range — лететь (по трассе полигона): с удалением от места старта
in the «go» range — в рабочем, диапазоне
medium frequency radio range — среднечастотный направленный [курсовой] радиомаяк
phase-shift omnidirectional radio range — фазовый всенаправленный [пеленговый] радиомаяк
range with maximum tankage — дальность с максимальным запасом топлива (во внутренних и подвесных баках)
simultaneous type radio range — радиомаяк с одновременной передачей курсовых сигналов и телефонных сообщений
— g range -
9 courant admissible, m
(длительный) допустимый ток
Максимальное значение электрического тока, который может протекать длительно по проводнику, устройству или аппарату при определенных условиях без превышения определенного значения их температуры в установившемся режиме
[ ГОСТ Р МЭК 60050-826-2009]
Этот ток обозначают IZ
[ ГОСТ Р 50571. 1-2009 ( МЭК 60364-1: 2005)]EN
(continuous) current-carrying capacity
ampacity (US)
maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value
[IEV number 826-11-13]
ampacity
The current in amperes that a conductor can carry continuously under the conditions of use without exceeding its temperature rating.
[National Electrical Cod]FR
courant (permanent) admissible, m
valeur maximale du courant électrique qui peut parcourir en permanence, un conducteur, un dispositif ou un appareil, sans que sa température de régime permanent, dans des conditions données, soit supérieure à la valeur spécifiée
[IEV number 826-11-13]Ampacity, the term is defined as the maximum amount of current a cable can carry before sustaining immediate or progressive deterioration. Also described as current rating or current-carrying capacity, is the RMS electric current which a device can continuously carry while remaining within its temperature rating. The ampacity of a cable depends on:
- its insulation temperature rating;
- conductor electrical properties for current;
- frequency, in the case of alternating currents;
- ability to dissipate heat, which depends on cable geometry and its surroundings;
- ambient temperature.
Electric wires have some resistance, and electric current flowing through them causes voltage drop and power dissipation, which heats the cable. Copper or aluminum can conduct a large amount of current before melting, but long before the conductors melt, their insulation would be damaged by the heat.
The ampacity for a power cable is thus based on physical and electrical properties of the material & construction of the conductor and of its insulation, ambient temperature, and environmental conditions adjacent to the cable. Having a large overall surface area may dissipate heat well if the environment can absorb the heat.
In a long run of cable, different conditions govern, and installation regulations normally specify that the most severe condition along the run governs the cable's rating. Cables run in wet or oily locations may carry a lower temperature rating than in a dry installation. Derating is necessary for multiple circuits in close proximity. When multiple cables are near, each contributes heat to the others and diminishes the amount of cooling air that can flow past the individual cables. The overall ampacity of the insulated conductors in a bundle of more than 3 must be derated, whether in a raceway or cable. Usually the de-rating factor is tabulated in a nation's wiring regulations.
Depending on the type of insulating material, common maximum allowable temperatures at the surface of the conductor are 60, 75 and 90 degrees Celsius, often with an ambient air temperature of 30°C. In the U.S., 105°C is allowed with ambient of 40°C, for larger power cables, especially those operating at more than 2 kV. Likewise, specific insulations are rated 150, 200 or 250°C.
The allowed current in cables generally needs to be decreased (derated) when the cable is covered with fireproofing material.
For example, the United States National Electric Code, Table 310-16, specifies that up to three 8 AWG copper wires having a common insulating material (THWN) in a raceway, cable, or direct burial has an ampacity of 50 A when the ambient air is 30°C, the conductor surface temperature allowed to be 75°C. A single insulated conductor in air has 70 A rating.
Ampacity rating is normally for continuous current, and short periods of overcurrent occur without harm in most cabling systems. The acceptable magnitude and duration of overcurrent is a more complex topic than ampacity.
When designing an electrical system, one will normally need to know the current rating for the following:- Wires
- Printed Circuit Board traces, where included
- Fuses
- Circuit breakers
- All or nearly all components used
Some devices are limited by power rating, and when this power rating occurs below their current limit, it is not necessary to know the current limit to design a system. A common example of this is lightbulb holders.
[http://en.wikipedia.org/wiki/Ampacity]
Тематики
- электротехника, основные понятия
Синонимы
EN
DE
- Dauerstrombelastbarkeit, f
- Strombelastbarkeit, f
FR
- courant admissible, m
- courant permanent admissible, m
Франко-русский словарь нормативно-технической терминологии > courant admissible, m
-
10 courant permanent admissible, m
(длительный) допустимый ток
Максимальное значение электрического тока, который может протекать длительно по проводнику, устройству или аппарату при определенных условиях без превышения определенного значения их температуры в установившемся режиме
[ ГОСТ Р МЭК 60050-826-2009]
Этот ток обозначают IZ
[ ГОСТ Р 50571. 1-2009 ( МЭК 60364-1: 2005)]EN
(continuous) current-carrying capacity
ampacity (US)
maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value
[IEV number 826-11-13]
ampacity
The current in amperes that a conductor can carry continuously under the conditions of use without exceeding its temperature rating.
[National Electrical Cod]FR
courant (permanent) admissible, m
valeur maximale du courant électrique qui peut parcourir en permanence, un conducteur, un dispositif ou un appareil, sans que sa température de régime permanent, dans des conditions données, soit supérieure à la valeur spécifiée
[IEV number 826-11-13]Ampacity, the term is defined as the maximum amount of current a cable can carry before sustaining immediate or progressive deterioration. Also described as current rating or current-carrying capacity, is the RMS electric current which a device can continuously carry while remaining within its temperature rating. The ampacity of a cable depends on:
- its insulation temperature rating;
- conductor electrical properties for current;
- frequency, in the case of alternating currents;
- ability to dissipate heat, which depends on cable geometry and its surroundings;
- ambient temperature.
Electric wires have some resistance, and electric current flowing through them causes voltage drop and power dissipation, which heats the cable. Copper or aluminum can conduct a large amount of current before melting, but long before the conductors melt, their insulation would be damaged by the heat.
The ampacity for a power cable is thus based on physical and electrical properties of the material & construction of the conductor and of its insulation, ambient temperature, and environmental conditions adjacent to the cable. Having a large overall surface area may dissipate heat well if the environment can absorb the heat.
In a long run of cable, different conditions govern, and installation regulations normally specify that the most severe condition along the run governs the cable's rating. Cables run in wet or oily locations may carry a lower temperature rating than in a dry installation. Derating is necessary for multiple circuits in close proximity. When multiple cables are near, each contributes heat to the others and diminishes the amount of cooling air that can flow past the individual cables. The overall ampacity of the insulated conductors in a bundle of more than 3 must be derated, whether in a raceway or cable. Usually the de-rating factor is tabulated in a nation's wiring regulations.
Depending on the type of insulating material, common maximum allowable temperatures at the surface of the conductor are 60, 75 and 90 degrees Celsius, often with an ambient air temperature of 30°C. In the U.S., 105°C is allowed with ambient of 40°C, for larger power cables, especially those operating at more than 2 kV. Likewise, specific insulations are rated 150, 200 or 250°C.
The allowed current in cables generally needs to be decreased (derated) when the cable is covered with fireproofing material.
For example, the United States National Electric Code, Table 310-16, specifies that up to three 8 AWG copper wires having a common insulating material (THWN) in a raceway, cable, or direct burial has an ampacity of 50 A when the ambient air is 30°C, the conductor surface temperature allowed to be 75°C. A single insulated conductor in air has 70 A rating.
Ampacity rating is normally for continuous current, and short periods of overcurrent occur without harm in most cabling systems. The acceptable magnitude and duration of overcurrent is a more complex topic than ampacity.
When designing an electrical system, one will normally need to know the current rating for the following:- Wires
- Printed Circuit Board traces, where included
- Fuses
- Circuit breakers
- All or nearly all components used
Some devices are limited by power rating, and when this power rating occurs below their current limit, it is not necessary to know the current limit to design a system. A common example of this is lightbulb holders.
[http://en.wikipedia.org/wiki/Ampacity]
Тематики
- электротехника, основные понятия
Синонимы
EN
DE
- Dauerstrombelastbarkeit, f
- Strombelastbarkeit, f
FR
- courant admissible, m
- courant permanent admissible, m
Франко-русский словарь нормативно-технической терминологии > courant permanent admissible, m
-
11 Dauerstrombelastbarkeit, f
(длительный) допустимый ток
Максимальное значение электрического тока, который может протекать длительно по проводнику, устройству или аппарату при определенных условиях без превышения определенного значения их температуры в установившемся режиме
[ ГОСТ Р МЭК 60050-826-2009]
Этот ток обозначают IZ
[ ГОСТ Р 50571. 1-2009 ( МЭК 60364-1: 2005)]EN
(continuous) current-carrying capacity
ampacity (US)
maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value
[IEV number 826-11-13]
ampacity
The current in amperes that a conductor can carry continuously under the conditions of use without exceeding its temperature rating.
[National Electrical Cod]FR
courant (permanent) admissible, m
valeur maximale du courant électrique qui peut parcourir en permanence, un conducteur, un dispositif ou un appareil, sans que sa température de régime permanent, dans des conditions données, soit supérieure à la valeur spécifiée
[IEV number 826-11-13]Ampacity, the term is defined as the maximum amount of current a cable can carry before sustaining immediate or progressive deterioration. Also described as current rating or current-carrying capacity, is the RMS electric current which a device can continuously carry while remaining within its temperature rating. The ampacity of a cable depends on:
- its insulation temperature rating;
- conductor electrical properties for current;
- frequency, in the case of alternating currents;
- ability to dissipate heat, which depends on cable geometry and its surroundings;
- ambient temperature.
Electric wires have some resistance, and electric current flowing through them causes voltage drop and power dissipation, which heats the cable. Copper or aluminum can conduct a large amount of current before melting, but long before the conductors melt, their insulation would be damaged by the heat.
The ampacity for a power cable is thus based on physical and electrical properties of the material & construction of the conductor and of its insulation, ambient temperature, and environmental conditions adjacent to the cable. Having a large overall surface area may dissipate heat well if the environment can absorb the heat.
In a long run of cable, different conditions govern, and installation regulations normally specify that the most severe condition along the run governs the cable's rating. Cables run in wet or oily locations may carry a lower temperature rating than in a dry installation. Derating is necessary for multiple circuits in close proximity. When multiple cables are near, each contributes heat to the others and diminishes the amount of cooling air that can flow past the individual cables. The overall ampacity of the insulated conductors in a bundle of more than 3 must be derated, whether in a raceway or cable. Usually the de-rating factor is tabulated in a nation's wiring regulations.
Depending on the type of insulating material, common maximum allowable temperatures at the surface of the conductor are 60, 75 and 90 degrees Celsius, often with an ambient air temperature of 30°C. In the U.S., 105°C is allowed with ambient of 40°C, for larger power cables, especially those operating at more than 2 kV. Likewise, specific insulations are rated 150, 200 or 250°C.
The allowed current in cables generally needs to be decreased (derated) when the cable is covered with fireproofing material.
For example, the United States National Electric Code, Table 310-16, specifies that up to three 8 AWG copper wires having a common insulating material (THWN) in a raceway, cable, or direct burial has an ampacity of 50 A when the ambient air is 30°C, the conductor surface temperature allowed to be 75°C. A single insulated conductor in air has 70 A rating.
Ampacity rating is normally for continuous current, and short periods of overcurrent occur without harm in most cabling systems. The acceptable magnitude and duration of overcurrent is a more complex topic than ampacity.
When designing an electrical system, one will normally need to know the current rating for the following:- Wires
- Printed Circuit Board traces, where included
- Fuses
- Circuit breakers
- All or nearly all components used
Some devices are limited by power rating, and when this power rating occurs below their current limit, it is not necessary to know the current limit to design a system. A common example of this is lightbulb holders.
[http://en.wikipedia.org/wiki/Ampacity]
Тематики
- электротехника, основные понятия
Синонимы
EN
DE
- Dauerstrombelastbarkeit, f
- Strombelastbarkeit, f
FR
- courant admissible, m
- courant permanent admissible, m
Немецко-русский словарь нормативно-технической терминологии > Dauerstrombelastbarkeit, f
-
12 Strombelastbarkeit, f
(длительный) допустимый ток
Максимальное значение электрического тока, который может протекать длительно по проводнику, устройству или аппарату при определенных условиях без превышения определенного значения их температуры в установившемся режиме
[ ГОСТ Р МЭК 60050-826-2009]
Этот ток обозначают IZ
[ ГОСТ Р 50571. 1-2009 ( МЭК 60364-1: 2005)]EN
(continuous) current-carrying capacity
ampacity (US)
maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value
[IEV number 826-11-13]
ampacity
The current in amperes that a conductor can carry continuously under the conditions of use without exceeding its temperature rating.
[National Electrical Cod]FR
courant (permanent) admissible, m
valeur maximale du courant électrique qui peut parcourir en permanence, un conducteur, un dispositif ou un appareil, sans que sa température de régime permanent, dans des conditions données, soit supérieure à la valeur spécifiée
[IEV number 826-11-13]Ampacity, the term is defined as the maximum amount of current a cable can carry before sustaining immediate or progressive deterioration. Also described as current rating or current-carrying capacity, is the RMS electric current which a device can continuously carry while remaining within its temperature rating. The ampacity of a cable depends on:
- its insulation temperature rating;
- conductor electrical properties for current;
- frequency, in the case of alternating currents;
- ability to dissipate heat, which depends on cable geometry and its surroundings;
- ambient temperature.
Electric wires have some resistance, and electric current flowing through them causes voltage drop and power dissipation, which heats the cable. Copper or aluminum can conduct a large amount of current before melting, but long before the conductors melt, their insulation would be damaged by the heat.
The ampacity for a power cable is thus based on physical and electrical properties of the material & construction of the conductor and of its insulation, ambient temperature, and environmental conditions adjacent to the cable. Having a large overall surface area may dissipate heat well if the environment can absorb the heat.
In a long run of cable, different conditions govern, and installation regulations normally specify that the most severe condition along the run governs the cable's rating. Cables run in wet or oily locations may carry a lower temperature rating than in a dry installation. Derating is necessary for multiple circuits in close proximity. When multiple cables are near, each contributes heat to the others and diminishes the amount of cooling air that can flow past the individual cables. The overall ampacity of the insulated conductors in a bundle of more than 3 must be derated, whether in a raceway or cable. Usually the de-rating factor is tabulated in a nation's wiring regulations.
Depending on the type of insulating material, common maximum allowable temperatures at the surface of the conductor are 60, 75 and 90 degrees Celsius, often with an ambient air temperature of 30°C. In the U.S., 105°C is allowed with ambient of 40°C, for larger power cables, especially those operating at more than 2 kV. Likewise, specific insulations are rated 150, 200 or 250°C.
The allowed current in cables generally needs to be decreased (derated) when the cable is covered with fireproofing material.
For example, the United States National Electric Code, Table 310-16, specifies that up to three 8 AWG copper wires having a common insulating material (THWN) in a raceway, cable, or direct burial has an ampacity of 50 A when the ambient air is 30°C, the conductor surface temperature allowed to be 75°C. A single insulated conductor in air has 70 A rating.
Ampacity rating is normally for continuous current, and short periods of overcurrent occur without harm in most cabling systems. The acceptable magnitude and duration of overcurrent is a more complex topic than ampacity.
When designing an electrical system, one will normally need to know the current rating for the following:- Wires
- Printed Circuit Board traces, where included
- Fuses
- Circuit breakers
- All or nearly all components used
Some devices are limited by power rating, and when this power rating occurs below their current limit, it is not necessary to know the current limit to design a system. A common example of this is lightbulb holders.
[http://en.wikipedia.org/wiki/Ampacity]
Тематики
- электротехника, основные понятия
Синонимы
EN
DE
- Dauerstrombelastbarkeit, f
- Strombelastbarkeit, f
FR
- courant admissible, m
- courant permanent admissible, m
Немецко-русский словарь нормативно-технической терминологии > Strombelastbarkeit, f
-
13 continuous current-carrying capacity
длительная пропускная способность по току
—
[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
(длительный) допустимый ток
Максимальное значение электрического тока, который может протекать длительно по проводнику, устройству или аппарату при определенных условиях без превышения определенного значения их температуры в установившемся режиме
[ ГОСТ Р МЭК 60050-826-2009]
Этот ток обозначают IZ
[ ГОСТ Р 50571. 1-2009 ( МЭК 60364-1: 2005)]EN
(continuous) current-carrying capacity
ampacity (US)
maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value
[IEV number 826-11-13]
ampacity
The current in amperes that a conductor can carry continuously under the conditions of use without exceeding its temperature rating.
[National Electrical Cod]FR
courant (permanent) admissible, m
valeur maximale du courant électrique qui peut parcourir en permanence, un conducteur, un dispositif ou un appareil, sans que sa température de régime permanent, dans des conditions données, soit supérieure à la valeur spécifiée
[IEV number 826-11-13]Ampacity, the term is defined as the maximum amount of current a cable can carry before sustaining immediate or progressive deterioration. Also described as current rating or current-carrying capacity, is the RMS electric current which a device can continuously carry while remaining within its temperature rating. The ampacity of a cable depends on:
- its insulation temperature rating;
- conductor electrical properties for current;
- frequency, in the case of alternating currents;
- ability to dissipate heat, which depends on cable geometry and its surroundings;
- ambient temperature.
Electric wires have some resistance, and electric current flowing through them causes voltage drop and power dissipation, which heats the cable. Copper or aluminum can conduct a large amount of current before melting, but long before the conductors melt, their insulation would be damaged by the heat.
The ampacity for a power cable is thus based on physical and electrical properties of the material & construction of the conductor and of its insulation, ambient temperature, and environmental conditions adjacent to the cable. Having a large overall surface area may dissipate heat well if the environment can absorb the heat.
In a long run of cable, different conditions govern, and installation regulations normally specify that the most severe condition along the run governs the cable's rating. Cables run in wet or oily locations may carry a lower temperature rating than in a dry installation. Derating is necessary for multiple circuits in close proximity. When multiple cables are near, each contributes heat to the others and diminishes the amount of cooling air that can flow past the individual cables. The overall ampacity of the insulated conductors in a bundle of more than 3 must be derated, whether in a raceway or cable. Usually the de-rating factor is tabulated in a nation's wiring regulations.
Depending on the type of insulating material, common maximum allowable temperatures at the surface of the conductor are 60, 75 and 90 degrees Celsius, often with an ambient air temperature of 30°C. In the U.S., 105°C is allowed with ambient of 40°C, for larger power cables, especially those operating at more than 2 kV. Likewise, specific insulations are rated 150, 200 or 250°C.
The allowed current in cables generally needs to be decreased (derated) when the cable is covered with fireproofing material.
For example, the United States National Electric Code, Table 310-16, specifies that up to three 8 AWG copper wires having a common insulating material (THWN) in a raceway, cable, or direct burial has an ampacity of 50 A when the ambient air is 30°C, the conductor surface temperature allowed to be 75°C. A single insulated conductor in air has 70 A rating.
Ampacity rating is normally for continuous current, and short periods of overcurrent occur without harm in most cabling systems. The acceptable magnitude and duration of overcurrent is a more complex topic than ampacity.
When designing an electrical system, one will normally need to know the current rating for the following:- Wires
- Printed Circuit Board traces, where included
- Fuses
- Circuit breakers
- All or nearly all components used
Some devices are limited by power rating, and when this power rating occurs below their current limit, it is not necessary to know the current limit to design a system. A common example of this is lightbulb holders.
[http://en.wikipedia.org/wiki/Ampacity]
Тематики
- электротехника, основные понятия
Синонимы
EN
DE
- Dauerstrombelastbarkeit, f
- Strombelastbarkeit, f
FR
- courant admissible, m
- courant permanent admissible, m
Англо-русский словарь нормативно-технической терминологии > continuous current-carrying capacity
-
14 ampacity (US)
(длительный) допустимый ток
Максимальное значение электрического тока, который может протекать длительно по проводнику, устройству или аппарату при определенных условиях без превышения определенного значения их температуры в установившемся режиме
[ ГОСТ Р МЭК 60050-826-2009]
Этот ток обозначают IZ
[ ГОСТ Р 50571. 1-2009 ( МЭК 60364-1: 2005)]EN
(continuous) current-carrying capacity
ampacity (US)
maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value
[IEV number 826-11-13]
ampacity
The current in amperes that a conductor can carry continuously under the conditions of use without exceeding its temperature rating.
[National Electrical Cod]FR
courant (permanent) admissible, m
valeur maximale du courant électrique qui peut parcourir en permanence, un conducteur, un dispositif ou un appareil, sans que sa température de régime permanent, dans des conditions données, soit supérieure à la valeur spécifiée
[IEV number 826-11-13]Ampacity, the term is defined as the maximum amount of current a cable can carry before sustaining immediate or progressive deterioration. Also described as current rating or current-carrying capacity, is the RMS electric current which a device can continuously carry while remaining within its temperature rating. The ampacity of a cable depends on:
- its insulation temperature rating;
- conductor electrical properties for current;
- frequency, in the case of alternating currents;
- ability to dissipate heat, which depends on cable geometry and its surroundings;
- ambient temperature.
Electric wires have some resistance, and electric current flowing through them causes voltage drop and power dissipation, which heats the cable. Copper or aluminum can conduct a large amount of current before melting, but long before the conductors melt, their insulation would be damaged by the heat.
The ampacity for a power cable is thus based on physical and electrical properties of the material & construction of the conductor and of its insulation, ambient temperature, and environmental conditions adjacent to the cable. Having a large overall surface area may dissipate heat well if the environment can absorb the heat.
In a long run of cable, different conditions govern, and installation regulations normally specify that the most severe condition along the run governs the cable's rating. Cables run in wet or oily locations may carry a lower temperature rating than in a dry installation. Derating is necessary for multiple circuits in close proximity. When multiple cables are near, each contributes heat to the others and diminishes the amount of cooling air that can flow past the individual cables. The overall ampacity of the insulated conductors in a bundle of more than 3 must be derated, whether in a raceway or cable. Usually the de-rating factor is tabulated in a nation's wiring regulations.
Depending on the type of insulating material, common maximum allowable temperatures at the surface of the conductor are 60, 75 and 90 degrees Celsius, often with an ambient air temperature of 30°C. In the U.S., 105°C is allowed with ambient of 40°C, for larger power cables, especially those operating at more than 2 kV. Likewise, specific insulations are rated 150, 200 or 250°C.
The allowed current in cables generally needs to be decreased (derated) when the cable is covered with fireproofing material.
For example, the United States National Electric Code, Table 310-16, specifies that up to three 8 AWG copper wires having a common insulating material (THWN) in a raceway, cable, or direct burial has an ampacity of 50 A when the ambient air is 30°C, the conductor surface temperature allowed to be 75°C. A single insulated conductor in air has 70 A rating.
Ampacity rating is normally for continuous current, and short periods of overcurrent occur without harm in most cabling systems. The acceptable magnitude and duration of overcurrent is a more complex topic than ampacity.
When designing an electrical system, one will normally need to know the current rating for the following:- Wires
- Printed Circuit Board traces, where included
- Fuses
- Circuit breakers
- All or nearly all components used
Some devices are limited by power rating, and when this power rating occurs below their current limit, it is not necessary to know the current limit to design a system. A common example of this is lightbulb holders.
[http://en.wikipedia.org/wiki/Ampacity]
Тематики
- электротехника, основные понятия
Синонимы
EN
DE
- Dauerstrombelastbarkeit, f
- Strombelastbarkeit, f
FR
- courant admissible, m
- courant permanent admissible, m
Англо-русский словарь нормативно-технической терминологии > ampacity (US)
-
15 continuous current
(длительный) допустимый ток
Максимальное значение электрического тока, который может протекать длительно по проводнику, устройству или аппарату при определенных условиях без превышения определенного значения их температуры в установившемся режиме
[ ГОСТ Р МЭК 60050-826-2009]
Этот ток обозначают IZ
[ ГОСТ Р 50571. 1-2009 ( МЭК 60364-1: 2005)]EN
(continuous) current-carrying capacity
ampacity (US)
maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value
[IEV number 826-11-13]
ampacity
The current in amperes that a conductor can carry continuously under the conditions of use without exceeding its temperature rating.
[National Electrical Cod]FR
courant (permanent) admissible, m
valeur maximale du courant électrique qui peut parcourir en permanence, un conducteur, un dispositif ou un appareil, sans que sa température de régime permanent, dans des conditions données, soit supérieure à la valeur spécifiée
[IEV number 826-11-13]Ampacity, the term is defined as the maximum amount of current a cable can carry before sustaining immediate or progressive deterioration. Also described as current rating or current-carrying capacity, is the RMS electric current which a device can continuously carry while remaining within its temperature rating. The ampacity of a cable depends on:
- its insulation temperature rating;
- conductor electrical properties for current;
- frequency, in the case of alternating currents;
- ability to dissipate heat, which depends on cable geometry and its surroundings;
- ambient temperature.
Electric wires have some resistance, and electric current flowing through them causes voltage drop and power dissipation, which heats the cable. Copper or aluminum can conduct a large amount of current before melting, but long before the conductors melt, their insulation would be damaged by the heat.
The ampacity for a power cable is thus based on physical and electrical properties of the material & construction of the conductor and of its insulation, ambient temperature, and environmental conditions adjacent to the cable. Having a large overall surface area may dissipate heat well if the environment can absorb the heat.
In a long run of cable, different conditions govern, and installation regulations normally specify that the most severe condition along the run governs the cable's rating. Cables run in wet or oily locations may carry a lower temperature rating than in a dry installation. Derating is necessary for multiple circuits in close proximity. When multiple cables are near, each contributes heat to the others and diminishes the amount of cooling air that can flow past the individual cables. The overall ampacity of the insulated conductors in a bundle of more than 3 must be derated, whether in a raceway or cable. Usually the de-rating factor is tabulated in a nation's wiring regulations.
Depending on the type of insulating material, common maximum allowable temperatures at the surface of the conductor are 60, 75 and 90 degrees Celsius, often with an ambient air temperature of 30°C. In the U.S., 105°C is allowed with ambient of 40°C, for larger power cables, especially those operating at more than 2 kV. Likewise, specific insulations are rated 150, 200 or 250°C.
The allowed current in cables generally needs to be decreased (derated) when the cable is covered with fireproofing material.
For example, the United States National Electric Code, Table 310-16, specifies that up to three 8 AWG copper wires having a common insulating material (THWN) in a raceway, cable, or direct burial has an ampacity of 50 A when the ambient air is 30°C, the conductor surface temperature allowed to be 75°C. A single insulated conductor in air has 70 A rating.
Ampacity rating is normally for continuous current, and short periods of overcurrent occur without harm in most cabling systems. The acceptable magnitude and duration of overcurrent is a more complex topic than ampacity.
When designing an electrical system, one will normally need to know the current rating for the following:- Wires
- Printed Circuit Board traces, where included
- Fuses
- Circuit breakers
- All or nearly all components used
Some devices are limited by power rating, and when this power rating occurs below their current limit, it is not necessary to know the current limit to design a system. A common example of this is lightbulb holders.
[http://en.wikipedia.org/wiki/Ampacity]
Тематики
- электротехника, основные понятия
Синонимы
EN
DE
- Dauerstrombelastbarkeit, f
- Strombelastbarkeit, f
FR
- courant admissible, m
- courant permanent admissible, m
непрерывный ток
—
[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва, 1999]Тематики
- электротехника, основные понятия
EN
Англо-русский словарь нормативно-технической терминологии > continuous current
-
16 current-carrying capacity
(длительный) допустимый ток
Максимальное значение электрического тока, который может протекать длительно по проводнику, устройству или аппарату при определенных условиях без превышения определенного значения их температуры в установившемся режиме
[ ГОСТ Р МЭК 60050-826-2009]
Этот ток обозначают IZ
[ ГОСТ Р 50571. 1-2009 ( МЭК 60364-1: 2005)]EN
(continuous) current-carrying capacity
ampacity (US)
maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value
[IEV number 826-11-13]
ampacity
The current in amperes that a conductor can carry continuously under the conditions of use without exceeding its temperature rating.
[National Electrical Cod]FR
courant (permanent) admissible, m
valeur maximale du courant électrique qui peut parcourir en permanence, un conducteur, un dispositif ou un appareil, sans que sa température de régime permanent, dans des conditions données, soit supérieure à la valeur spécifiée
[IEV number 826-11-13]Ampacity, the term is defined as the maximum amount of current a cable can carry before sustaining immediate or progressive deterioration. Also described as current rating or current-carrying capacity, is the RMS electric current which a device can continuously carry while remaining within its temperature rating. The ampacity of a cable depends on:
- its insulation temperature rating;
- conductor electrical properties for current;
- frequency, in the case of alternating currents;
- ability to dissipate heat, which depends on cable geometry and its surroundings;
- ambient temperature.
Electric wires have some resistance, and electric current flowing through them causes voltage drop and power dissipation, which heats the cable. Copper or aluminum can conduct a large amount of current before melting, but long before the conductors melt, their insulation would be damaged by the heat.
The ampacity for a power cable is thus based on physical and electrical properties of the material & construction of the conductor and of its insulation, ambient temperature, and environmental conditions adjacent to the cable. Having a large overall surface area may dissipate heat well if the environment can absorb the heat.
In a long run of cable, different conditions govern, and installation regulations normally specify that the most severe condition along the run governs the cable's rating. Cables run in wet or oily locations may carry a lower temperature rating than in a dry installation. Derating is necessary for multiple circuits in close proximity. When multiple cables are near, each contributes heat to the others and diminishes the amount of cooling air that can flow past the individual cables. The overall ampacity of the insulated conductors in a bundle of more than 3 must be derated, whether in a raceway or cable. Usually the de-rating factor is tabulated in a nation's wiring regulations.
Depending on the type of insulating material, common maximum allowable temperatures at the surface of the conductor are 60, 75 and 90 degrees Celsius, often with an ambient air temperature of 30°C. In the U.S., 105°C is allowed with ambient of 40°C, for larger power cables, especially those operating at more than 2 kV. Likewise, specific insulations are rated 150, 200 or 250°C.
The allowed current in cables generally needs to be decreased (derated) when the cable is covered with fireproofing material.
For example, the United States National Electric Code, Table 310-16, specifies that up to three 8 AWG copper wires having a common insulating material (THWN) in a raceway, cable, or direct burial has an ampacity of 50 A when the ambient air is 30°C, the conductor surface temperature allowed to be 75°C. A single insulated conductor in air has 70 A rating.
Ampacity rating is normally for continuous current, and short periods of overcurrent occur without harm in most cabling systems. The acceptable magnitude and duration of overcurrent is a more complex topic than ampacity.
When designing an electrical system, one will normally need to know the current rating for the following:- Wires
- Printed Circuit Board traces, where included
- Fuses
- Circuit breakers
- All or nearly all components used
Some devices are limited by power rating, and when this power rating occurs below their current limit, it is not necessary to know the current limit to design a system. A common example of this is lightbulb holders.
[http://en.wikipedia.org/wiki/Ampacity]
Тематики
- электротехника, основные понятия
Синонимы
EN
DE
- Dauerstrombelastbarkeit, f
- Strombelastbarkeit, f
FR
- courant admissible, m
- courant permanent admissible, m
предельно допустимый ток
—
[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
прочность печатной платы к токовой нагрузке
Свойство печатной платы сохранять электрические и механические характеристики после воздействия максимально допустимой токовой нагрузки на печатный проводник или металлизированное отверстие печатной платы.
[ ГОСТ Р 53386-2009]Тематики
EN
Англо-русский словарь нормативно-технической терминологии > current-carrying capacity
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17 load
2) нагрузка, усилие || нагружать3) кфт. заряжать5) съём ( стекломассы)6) гидр. наносы8) закладка ( заготовки в приспособление) || закладывать9) хим. вводить ( ингредиенты)11) заправка (напр. ленты) || заправлять (напр. ленту)12) вчт. загрузка (напр. программы) || загружать (напр. программу)•load per unit surface — нагрузка на единицу поверхности (охлаждения, нагрева),to apply load — прикладывать нагрузку;to carry load — нести нагрузку; выдерживать нагрузку;to cast load to side — производить поперечный перекос отвала ( бульдозера);to distribute load — распределять нагрузку;to load eccentrically — нагружать ( элемент) внецентренно, прикладывать нагрузку с эксцентриситетом;to impose load — прикладывать нагрузку;to load in bulk — грузить навалом или насыпью;to resist load — выдерживать нагрузку;to support load — нести нагрузку; выдерживать нагрузку;to sustain load — выдерживать нагрузку;to take up load — воспринимать нагрузку;to load up — нагружать;to load with film — заряжать киноплёнкой-
acceleration shock load
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active load
-
actual load
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additional load
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aerodynamic load
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air-conditioning load
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aircraft useful load
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allowable load
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alternate load
-
annual maximum load
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appliance load
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applied bearing load
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artificial load
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assumed load
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auxiliary load
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axial load
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axle load
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backhaul load
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balanced load
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balancing load
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ball load
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base load
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basic load
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batch load
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bed load
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bending load
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blast load
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bottom load
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brake load
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breaking load
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buckling load
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buff load
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bulk load
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calculated load
-
capacitance load
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car load
-
carbon burning load
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central load
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characteristic load
-
circulating load of impurities
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clocked load
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coaxial dry load
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coaxial load
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cold-rolling load
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collapse load
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combined load
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commercial load
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complete wagon load
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complex load
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compressive load
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compressor load
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computational load
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concentrated load
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condensive load
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connected load
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continuous load
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controllable load
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cooling load
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crippling load
-
crush load
-
crushing load
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current load
-
cutter load
-
cyclic load
-
daily load
-
dead load
-
dead-weight load
-
design load
-
design ultimate load
-
direct-acting load
-
direct load
-
discontinuous load
-
dissipative-wall waveguide load
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distributed load with linear variation
-
distributed load
-
docking load
-
domestic load
-
down-line load
-
draft end load
-
draft load
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drawbar load
-
dummy load
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dust load
-
dwelling load
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dynamic load
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earth load
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earthquake load
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eccentric load
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effective load
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electric heating load
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electrical load
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electric load
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emergency load
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end load
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equivalent load
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even load
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excessive load
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excess load
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explosive load
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exponential load
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external load
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factored load
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failure load
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falling load
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fictitious load
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fixed load
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flight load
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floor load
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fluctuating load
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fractional load
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fracture load
-
frozen load
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full load
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gradually applied load
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gross load
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ground load
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guarantee load
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gust load
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heat load
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heating load
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heat-transfer load
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high-power load
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high-resistance load
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hole load
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hydraulic thrust load
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hydrodynamic load
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hydrostatic load
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ice load
-
imaginary load
-
impact load
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imposed load
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impulsive load
-
impulse load
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increment load
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induced docking loads
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inductance load
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industrial load
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industrial steam load
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inertia load
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initial program load
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input load
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instability load
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installed load
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instantaneous load
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intermittent load
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ionic load
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irregular load
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irregularly distributed load
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jettisoned load in flight
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knife-edge load
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lagging load
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landing load
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lane load
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latent heat load
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lateral load
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leading load
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less-than-car load
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light load
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lighting load
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limit load
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limit operating load
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linear load
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linearly varying load
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live load
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low-resistance load
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lumped load
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maneuvering load
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mass load
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matched load
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maximum safe load
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midspan load
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miscellaneous load
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mobile load
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moisture load
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momentary load
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movable load
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multichannel load
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net load
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noncentral load
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noncutting load
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noninductive load
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nonlinear load
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nonreactive load
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nonreflecting load
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normal running load
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occasionally applied load
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off-clearance load
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off-peak load of power plant
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on-peak load
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operating load
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optimum load
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ore load
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oscillating load
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oscillatory load
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out-of-balance load
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out-of-gage load
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out-of-length load
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output load
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overall load
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overhauling load
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overlength load
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overtolerance load
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palletized load
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palletized work load
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part throttle load
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partial load
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part load
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peak load
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periodic load
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permanent load
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permissible load
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phantom load
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piezoelectric load
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pilot work load
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plant load
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plate load
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point load
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pollutant load
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pop-in load
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power load
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power system load
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predetermined maximum cutting load
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prestressing load
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program load
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proof load
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pulsating load
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punch through load
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radial load
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railway load
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rated load
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reactive load
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real load
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rectifier load
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reflecting load
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refrigeration load
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repeated load
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residential load
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resistance load
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reverse torque load
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reversed load
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rolling load
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rotating bending load
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rupturing load
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safe load
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salt load
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Schottky diode load
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secondary load
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sediment load
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seismic load
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self-mass load
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sensible heat load
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service load
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setting load
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sewage load
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shearing load
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shear load
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shock load
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side load
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single load
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skip load
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sleet load
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sliding load
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snow load
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specific load
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specified load
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stalling load
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static load
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steady load
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storage load
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structural load
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suddenly applied load
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sudden load
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superimposed load
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support load
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support yield load
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surcharge load
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surface load
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sustained load
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symmetrical load
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temperature load
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tensile load
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terminal load
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test load
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thermal load
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through load
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tilting load
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tool/workpiece load
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top load
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torque load
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torsional load
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total load
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traction load
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tractional load
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traffic load
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transistor load
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traveling load
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treating load
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trial load
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triangular load
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true load
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twisting load
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ultimate load
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unbalanced load
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uniaxial load
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uniform load
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uniformly distributed load
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unit load
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unitized load
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unmatched load
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up load
-
useful load
-
variable load
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vehicular load
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wafer load
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water load
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waveguide load
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wheel load
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wind load
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wing load
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work load
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working load
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yield load -
18 relay
1) реле || ставить реле2) снабжать релейной защитой; ставить релейную защиту4) трансляция; передача ( сигнала) || транслировать; передавать ( сигнал)5) ретрансляция; переприём || ретранслировать•-
ac relay
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ac system relays
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accelerating relay
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acoustic relay
-
actuating relay
-
alarm relay
-
allotter relay
-
all-to-all relay
-
amplitude comparison relay
-
angle armature relay
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annunciation relay
-
antifailure automatics relay
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armature relay
-
automatic reclosing relay
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back-current relay
-
backup relay
-
balance beam relay
-
balanced relay
-
banked relay
-
biased relay
-
bimetallic-strip relay
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bistable relay
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blocking relay
-
block relay
-
brake application relay
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brake release relay
-
braking relay
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Buchholz relay
-
calling relay
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call relay
-
capacitance relay
-
carrier-actuated relay
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center-stable polarized relay
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center-stable polar relay
-
central disconnection relay
-
change-of-current relay
-
charging rate relay
-
circuit-control relay
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clappers-type relay
-
clappers relay
-
clearing relay
-
clock relay
-
closing relay
-
code relay
-
compelling relay
-
conductance relay
-
contact relay
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contactless relay
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continuous-duty relay
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control relay
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crossing relay
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current relay
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current-balance relay
-
current-overload relay
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cut-in relay
-
cut-off relay
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dc relay
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definite minimum time-limit relay
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definite-time-lag relay
-
delay relay
-
dependent-time measuring relay
-
dependent-time-lag relay
-
differential relay
-
digital radio relay
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digital relay
-
direct-action relay
-
directional impedance relay
-
directional power relay
-
directional relay
-
directional-overcurrent relay
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discriminating relay
-
distance relay
-
double-acting relay
-
draw-out relay
-
dry-feed relay
-
earth-fault relay
-
earthing relay
-
electrical relay
-
electrodynamic relay
-
electromagnetic relay
-
electromechanical relay
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electronic relay
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electron relay
-
electrostatic relay
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element relay
-
enclosed relay
-
entrance relay
-
erase relay
-
excitation-loss relay
-
fast-operating relay
-
fast-release relay
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ferrodynamic relay
-
ferromagnetic relay
-
field relay
-
field-application relay
-
field-failure relay
-
field-removal relay
-
frequency relay
-
frequency-selective relay
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gas-actuated relay
-
gas relay
-
gas-filled relay
-
graded time-lag relay
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grounding relay
-
ground relay
-
guard relay
-
hermetically sealed relay
-
high-speed relay
-
hinged-armature relay
-
holding relay
-
horn relay
-
hot-wire relay
-
impedance relay
-
independent time-lag relay
-
indicating relay
-
indirect-action relay
-
individual point relay
-
induction relay
-
inertia relay
-
initiating relay
-
instantaneous overcurrent relay
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instantaneous relay
-
interlock relay
-
intermediate switching-off relay
-
interposing relay
-
inverse-time relay
-
keying relay
-
key relay
-
lagged relay
-
lag relay
-
latched relay
-
latch-in relay
-
latching relay
-
leakage relay
-
leak relay
-
LED-coupled solid-state relay
-
light relay
-
light-out relay
-
line relay
-
line-break relay
-
load relay
-
local-remote relay
-
locking relay
-
lock-up relay
-
low-voltage relay
-
low-voltage release relay
-
magnetic relay
-
magnetoelectric relay
-
main locomotive relay
-
main starting relay
-
maximum power relay
-
maximum-voltage relay
-
measuring relay
-
memory relay
-
mercury relay
-
mercury-contact relay
-
mercury-wetted-contact relay
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metering relay
-
mho relay
-
microprocessor controlled relay for overcurrent protection
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microwave radio relay
-
microwave relay
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monostable relay
-
moving-iron relay
-
multiposition relay
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negative phase-sequence relay
-
net-to-net relay
-
network master relay
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network-phasing relay
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neutral relay
-
no-load relay
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nondirectional relay
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nonpolarized relay
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nonspecified-time relay
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normally closed relay
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normally open relay
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notching relay
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no-voltage relay
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ohm relay
-
open-frame relay
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open relay
-
open-phase relay
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open-track-circuit relay
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out-of-step relay
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overcurrent relay
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overload relay
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overpower relay
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overtemperature relay
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overvoltage relay
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percentage-differential relay
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phase relay
-
phase-balance relay
-
phase-comparison relay
-
phase-failure relay
-
phase-reversal relay
-
phase-rotation relay
-
photocell relay
-
photoemissive relay
-
phototube relay
-
plunger relay
-
pneumatic amplifier relay
-
pneumatic relay
-
pneumatic time-delay relay
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point detection relay
-
point operating relay
-
polarity-directional relay
-
polarized relay
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positive phase-sequence relay
-
potential relay
-
power direction relay
-
power relay
-
power-transfer relay
-
pressure relay
-
primary relay
-
product relay
-
protection relay
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pulse relay
-
pulse track relay
-
quick-operating relay
-
quotient relay
-
radio relay
-
rate-of-change relay
-
ratio-balance relay
-
reactance relay
-
reactive power relay
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reclosing relay
-
reed relay
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register relay
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regulating relay
-
reply and call relay
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reset relay
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residual relay
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resistance relay
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reverse-current relay
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reverse-phase relay
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rinding relay
-
route relay
-
route-release relay
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satellite relay
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secondary relay
-
sector-type relay
-
selector relay
-
self-resetting relay
-
semiconductor relay
-
service restoring relay
-
shaded-pole relay
-
short-circuit relay
-
shunt relay
-
side-stable relay
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signal selector relay
-
signaling relay
-
slave relay
-
slew relay
-
slow-acting relay
-
slow-release relay
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solenoid relay
-
solid-state relay
-
speed relay
-
starting relay
-
static relay with output contact
-
static relay without output contact
-
static relay
-
step-back relay
-
stepping-type relay
-
stepping relay
-
storage relay
-
supervisory relay
-
switch control relay
-
switch indication relay
-
switch lock relay
-
switch position relay
-
switching relay
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synchronizing relay
-
temperature relay
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three-position relay
-
time relay
-
time-delay relay
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timing relay
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track indicating relay
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track relay
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trailing relay
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train control relay
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train-stop relay
-
transfer relay
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transistor relay
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trip-free relay
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tuned relay
-
two-element selector relay
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two-position relay
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undercurrent relay
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undervoltage relay
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unenclosed relay
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voltage-response relay
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warning signal relay
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wet-reed relay
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wire-break relay
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zero phase-sequence relay -
19 rate
3) частота4) расход5) норма || нормировать6) тариф || тарифицировать7) степень8) отношение; коэффициент10) оценка || оценивать11) определять; устанавливать; подсчитывать; рассчитывать (напр. мощность, несущую способность)•rates to consumers — тарифы на отпуск (напр. электроэнергии) потребителям-
absolute disintegrate rate
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absorbed dose rate
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acceptance rate
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accident rate
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adiabatic lapse rate
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advance rate
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aging rate
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allowable leak rate
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angular rate
-
annual depletion rate
-
application rate
-
area rate
-
arrival rate
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ascensional rate
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assessed failure rate
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attenuation rate
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autoconvective lapse rate
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base wage rate
-
baud rate
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bearer rate
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beating rate
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bit rate
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bit-error rate
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bit-transfer rate
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block meter rate
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block-error rate
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boiling rate
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boil-up rate
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bonus rate
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break flow rate
-
breeding rate
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burning rate
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calling rate
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capture rate
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carbonization rate
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cargo rate
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carrier-ionization rate
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casting rate
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catalyst circulation rate
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charging rate
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chipping rate
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chip rate
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chopping rate
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circulation rate
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class rate
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climb rate
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clock rate
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closed rate
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closure rate
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coke rate
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cold storage rates
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collision rate
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combustion rate
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completion rate
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concentration rate
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containment leak rate
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continuous rate
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controlled rate
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convective expansion rate
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conversion rate
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conveyance rate
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cooling rate
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core heat generation rate
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corrosion rate
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counting rate
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crack growth rate
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creep rate
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crosshead rate
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cure rate
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cutter wear rate
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daily consumptive use rate
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data-transfer rate
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data rate
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decay rate
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decompression rate
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deflection rate
-
deionization rate
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delivery rate
-
demand cost rate
-
demand rate
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deposition rate
-
descent rate
-
development rate
-
deviation rate
-
differential rate
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differentiated electricity rates
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diffusion rate
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directional rate
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discharge rate
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disposal rate
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distance rate
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dither rate
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dosage rate
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downtime rate
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drainage rate
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drawing rate
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drift rate
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drilling rate
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droop rate
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dry adiabatic lapse rate
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electricity rate
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electric rate
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energy fluence rate
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energy release rate
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entropy production rate
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entropy rate
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erasing rate
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erosion rate
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error rate
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etching rate
-
etch rate
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evacuation rate
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evaporating rate
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excitation rate
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exposure rate
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failure rate
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failure-per-mile rate
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false alarm rate
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fatal accident frequency rate
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fatality rate
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fault rate
-
feed rate
-
field germination rate
-
field-repetition rate
-
fieldwide rate of recovery
-
film rate
-
filtering rate
-
finishing rate
-
fire-propagation rate
-
firing rate
-
fission rate
-
flat rate
-
flexible rates
-
flicker rate
-
flooding rate
-
flotation rate
-
flour extraction rate
-
flow rate
-
flush production rate
-
flutter rate
-
forced outgage rate
-
frame rate
-
frame-repetition rate
-
freezing rate
-
freight rate
-
freight-all-kinds rates
-
frequency-sweep rate
-
frequency-tuning rate
-
fuel rate
-
functional throughput rate
-
gas leak rate
-
gathering rate
-
generation rate
-
grinding rate
-
growth rate
-
gyro drift rate
-
half-clock rate
-
hardening rate
-
heat absorption rate
-
heat dissipation rate
-
heat generation rate
-
heat rate
-
heat-flow rate
-
heating rate
-
heat-transfer rate
-
hit rate
-
image refresh rate
-
impact wear rate
-
in-commission rate
-
infiltration rate
-
information rate
-
injection rate
-
instantaneous failure rate
-
intermittent rate
-
ionization rate
-
irrigation rate
-
iso-wear rates
-
job rates
-
kerma rate
-
keying rate
-
lapse rate
-
leakage rate
-
linear wear rate
-
line-of-sight rate
-
line-repetition rate
-
liquid efflux rate
-
lubrication rate
-
maintenance rate
-
mass flow rate
-
mass wear rate
-
maximum efficiency rate
-
maximum permissible rate
-
maximum stepping rate
-
medium rate
-
melting rate
-
melt-off rate
-
metal-removal rate
-
modulation rate
-
moist-adiabatic lapse rate
-
NC programmed feed rate
-
negative flow rate
-
nucleation rate
-
Nyquist rate
-
obturation rate
-
off-peak power rate
-
operating rate
-
optimal feed rate
-
outgassing rate
-
output rate
-
overall drilling rate
-
oxidation rate
-
paging rate
-
peak power rate
-
penetration rate
-
percolation rate
-
phase generation rate
-
phase rate
-
picture-taking rate
-
pitch rate
-
plastic strain rate
-
positive flow rate
-
potential rate of evaporation
-
pouring rate
-
power rate
-
precipitation rate
-
predetermined rate
-
predicted failure rate
-
priming rate
-
printout rate
-
print rate
-
production decline rate
-
production rate
-
projection rate
-
proper feed rate
-
protection rate
-
pull rate
-
pulldown rate
-
pulse-recurrence rate
-
pulse rate
-
radiation rate
-
radioactive decay rate
-
range rate
-
rapid air cut feed rate
-
rapid return rate
-
rate of acceleration
-
rate of angular motion
-
rate of attack
-
rate of blowing
-
rate of braking
-
rate of carbon drop
-
rate of convergence
-
rate of crack propagation
-
rate of deformation
-
rate of dilution
-
rate of discharge
-
rate of dive
-
rate of energy input
-
rate of exchange
-
rate of exposure
-
rate of fall
-
rate of film movement
-
rate of gain
-
rate of hole deviation change
-
rate of lancing
-
rate of linkage
-
rate of loading
-
rate of opening
-
rate of plant depreciation
-
rate of pulse rise
-
rate of rainfall
-
rate of rise
-
rate of roll
-
rate of sedimentation
-
rate of shear
-
rate of slope
-
rate of stirring
-
rate of surface runoff
-
rate or carbon oxidation
-
reactivity insertion rate
-
reading rate
-
read rate
-
recovery rate
-
recycle rate
-
reflood rate
-
refresh rate
-
refrigeration rate
-
repetition rate
-
reset rate
-
residential rate
-
respiration rate
-
retail charter rate
-
retail rate
-
retention rate
-
rigidity rate
-
rolling rate
-
runout rate
-
sample rate
-
saturated-adiabatic lapse rate
-
saturation rate
-
scrap generation rate
-
scrap rate
-
secondary creep rate
-
sectorial rate
-
self-discharge rate
-
setting rate
-
settled production rate
-
settling rate
-
signaling rate
-
silicon pulling rate
-
slew rate
-
snowmelt inflow rate
-
solidification rate
-
sparking rate
-
specific commodity rate
-
specific heat flow rate
-
specific rate of flow
-
specific rate of sediment transport
-
specific wear rate
-
spreading rate of jet
-
spring rate
-
squeeze rate
-
standard rate
-
starting rate
-
steam rate
-
stepping rate
-
stock removal rate
-
strain rate
-
stress rate
-
sub-Nyquist rate
-
success rate
-
superadiabatic lapse rate
-
supply rate
-
survival rate
-
sweep rate
-
taking rate
-
tariff rate
-
temperature lapse rate
-
testing rate
-
thermal transfer rate
-
through rate
-
throughput rate
-
time rate of change
-
time rate
-
time-of-day electricity rate
-
time-of-day rate
-
tool-wear rate
-
total mass rate
-
tracking rate
-
traffic flow rate
-
transfer rate
-
transmission rate
-
transport rate
-
turn rate
-
turnover rate
-
twenty-five ampere rate
-
undetected error rate
-
uniform quench rate
-
unit rate
-
unloading rate
-
update rate
-
vaporizing rate
-
vitrification rate
-
voidage rate
-
voltage recovery rate
-
volume erosion rate
-
volume wear rate
-
volumetric flow rate
-
volumetric rate
-
vulcanization rate
-
water application rate
-
water consumption rate
-
water use rate
-
wear rate
-
weft insertion rate
-
weight rate
-
wheel removal rate
-
wholesale charter rate
-
wholesale rate
-
withdrawal rate
-
write writing rate
-
write rate
-
yawing rate
-
yaw rate
-
zero-crossing rate -
20 thermometer
1) термометр2) пирометр•thermometer in container — термобатометр-
adjustable-range thermometer
-
air thermometer
-
alcohol thermometer
-
attached thermometer
-
bimetallic thermometer
-
bimetal thermometer
-
black-bulb thermometer
-
bottom-hole thermometer
-
capacitance thermometer
-
carbon resistor thermometer
-
carbon thermometer
-
centigrade thermometer
-
chemical thermometer
-
clinical thermometer
-
constant-pressure gas thermometer
-
constant-volume gas thermometer
-
contact thermometer
-
deep well thermometer
-
dial thermometer
-
differential thermometer
-
digital thermometer
-
dilatometric thermometer
-
diode thermometer
-
dipping thermometer
-
direct-reading thermometer
-
distant thermometer
-
distant-reading recording thermometer
-
double-division thermometer
-
double-scale thermometer
-
downhole thermometer
-
dry-and-wet-bulb thermometer
-
dry-bulb thermometer
-
dual thermometer
-
dual-purpose gamma thermometer
-
electric contact thermometer
-
electric thermometer
-
electrical resistance thermometer
-
electronic thermometer
-
engine-intake thermometer
-
fast-response downhole thermometer
-
fast-response thermometer
-
ferroelectric thermometer
-
filled-system thermometer
-
four-terminal resistance thermometer
-
four-terminal thermometer
-
full-immersion thermometer
-
gamma thermometer
-
gaseous thermometer
-
gas thermometer
-
glass-stem thermometer
-
ground thermometer
-
high-precision thermometer
-
hull thermometer
-
hydrogen thermometer
-
immersion thermometer
-
infrared radiation thermometer
-
interpolation thermometer
-
intrinsically safe thermometer
-
isotope thermometer
-
Johnson noise power thermometer
-
limited range thermometer
-
liquid-filled thermometer
-
liquid thermometer
-
liquid-in-glass thermometer
-
liquid-in-metal thermometer
-
liquid-liquid thermometer
-
magnetic susceptibility thermometer
-
magnetic thermometer
-
manometric thermometer
-
master thermometer
-
maximum reading thermometer
-
maximum thermometer
-
mercurial thermometer
-
mercury-in-glass thermometer
-
mercury-pressure thermometer
-
metal resistance thermometer
-
minimum thermometer
-
oxygen vapor pressure thermometer
-
partial-immersion thermometer
-
platinum resistance thermometer
-
pressure-filled thermometer
-
protected dipping thermometer
-
radiation thermometer
-
remote-sensing thermometer
-
resistance thermometer
-
reversing thermometer
-
rod thermometer
-
secondary reference thermometer
-
self-recording thermometer
-
semiconductor-resistance thermometer
-
sling thermometer
-
soil thermometer
-
spirit-in-glass thermometer
-
standard thermometer
-
stick-type thermometer
-
submersible thermometer
-
thermistor thermometer
-
thermoconductive thermometer
-
thermocouple thermometer
-
thin-film thermometer
-
unprotected reversing thermometer
-
unprotected thermometer
-
vacuous thermometer
-
vapor-pressure thermometer
-
wet-and-dry-bulb thermometer
-
wet-bulb thermometer
-
whirling thermometer
- 1
- 2
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